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2009-08-112012-05-15NEMO OntologiesNEMO.owl v1.20Neural ElectroMagnetic Ontologiesv2.85transformation_of2011-05-282011-07-27Also see OPMO http://purl.org/net/opmv/ns#wasDerivedFromAlso used in Provenir, which has the following definition: "Similar to definition in RO, this property links two entities that preserve their identity between the two transformation stages."OBO Relation Ontology (RO)When an embryonic oenocyte (a type of insect cell) is transformed into a larval oenocyte, one and the same continuant entity preserves its identity while instantiating distinct classes at distinct times. The class-level relation transformation_of obtains between continuant classes C and C1 wherever each instance of the class C is such as to have existed at some earlier time as an instance of the distinct class C1 (see Figure 2 in paper). This relation is illustrated first of all at the molecular level of granularity by the relation between mature RNA and the pre-RNA from which it is processed, or between (UV-induced) thymine-dimer and thymine dinucleotide. At coarser levels of granularity it is illustrated by the transformations involved in the creation of red blood cells, for example, from reticulocyte to erythrocyte, and by processes of development, for example, from larva to pupa, or from (post-gastrular) embryo to fetus or from child to adult. It is also manifest in pathological transformations, for example, of normal colon into carcinomatous colon. In each such case, one and the same continuant entity instantiates distinct classes at different times in virtue of phenotypic changes.http://obofoundry.org/ro/ro.owl#transformation_ofcaudal_to2009-05-072010-06-29NEMO_relationsObject A is caudal_to object B just in case A is closer to the back of the head (inion or occipital notch) and B is closer to the front of the head (nasio or nose).Spatial relations in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.The ears are caudal_to the mouth.X is caudal_to Y just in case X is closer to the back of the head (occipital notch) and Y is closer to the front of the head (nasion).(GF - 4/19/2009)caudal_tocaudal_to is the inverse of rostral_to.http://www.medterms.com/script/main/art.asp?articlekey=22580posterior_tolateral_to2009-05-072010-07-23NEMO_relatonsNote that X lateral_to Y does NOT necessarily imply that Y is medial_to X. For example, if X is the left frontotemporal region and Y is the right frontotemporal region, then X and Y are both equally lateral to the midline. Thus, medial_to is NOT the inverse of lateral_to. Similarly, lateral_to is NOT transitive (GF 5/2/2009).Object A is lateral_to object B just in case A is closer to the side of the head (left or right ear) and B is closer to the midline.Spatial relations in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.The ears are lateral_to the nose.X is lateral_to Y just in case X is closer to the side of the head (right or left ear) and Y is closer to the center of the head (vertex).(GF - 4/19/2009)http://www.upstate.edu/cdb/grossanat/glossary.shtmllateral_tolateral_to is NOT the inverse of medial_to.left_of2009-05-072010-04-05NEMO_spatialObject A is left_of object B just in case A is closer to the left side of the head (left ear) and Y is closer to the right of the head (right ear).Spatial relations in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.The left ear is left_of the mouth.X is left_of Y just in case X is closer to the left side of the head (left ear) and Y is closer to the right of the head (right ear).(GF - 4/19/2009)http://www.upstate.edu/cdb/grossanat/glossary.shtmlleft_ofleft_of is a relational sub-property of lateral_to.left_of is the inverse of right_of.right_of2009-05-072010-05-16NEMO_relationsObject A is right_of object B just in case A is closer to the right side of the head (right ear) and Y is closer to the left of the head (left ear).Spatial relations in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.The right ear is right_of the mouth.X is right_of Y just in case X is closer to the right side of the head (right ear) and Y is closer to the left of the head (left ear).(GF - 4/19/2009)http://www.upstate.edu/cdb/grossanat/glossary.shtmlright_ofright_of is a relational sub-property of lateral_to.right_of is the inverse of left_of.medial_to2009-05-072010-05-16NEMO_relationsNote that X medial_to Y does NOT necessarily imply that Y is lateral_to X. For example, if X is the left frontotemporal region and Y is the right frontotemporal region, then X and Y are both equally lateral to the midline. Thus, medial_to is NOT the inverse of lateral_to. Similarly, lateral_to is NOT transitive (GF 5/2/2009).Object A is medial_to object B just in case A is closer to the midline of the head and B is closer to the side of the head (left or right ear).Spatial relations in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.The nose is medial_to the ears.X is medial_to Y just in case X is closer to the center of the head (vertex) and Y is closer to the side of the head (right or left ear). (GF - 4/19/2009)medial_tomedial_to is the NOT inverse of lateral_to.www.upstate.edu/cdb/grossanat/glossary.shtmlrostral_to2009-05-072010-05-16NEMO_relationsObject A is rostral_to another object B just in case A is closer to the front of the head (nose) and B is closer to the back of the head (inion or occipital notch).Spatial relations in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.The mouth is caudal to the ears.X is rostral_to Y just in case X is closer to the front of the head (nasion) and Y is closer to the back of the head (occipital notch). (GF - 4/19/2009)anterior_tohttp://medical-dictionary.thefreedictionary.com/rostralrostral_torostral_to is the inverse of caudal_to.occurs_in_response_to...[incomplete]2010-07-232010-07-23A process or event occurs in response to some other process or event. Curator.In NEMO, the subjects is typically an event_related_potential (ERP) pattern or component, and the object is an ERP event (e.g., stimulus_onset or response_onset).NEMO_relationsdomain =processual entity; range =processual entityoccurs_in_response_tohas_temporal_measurement...[incomplete]2010-06-152010-06-16Domain =temporal_region; Range = temporal_measurement_datumNEMO_relationshas_temporal_measurementis_frequency_measurement_of2010-08-072010-08-07Domain = frequency_measurement_datum (NEMO_7677000); Range = frequency (NEMO_2322000)NEMO_relations[incomplete...]has_object2010-05-272010-05-28In a data transformation, the transformation has_object the input data. The output data can also be said to be an 'object' (or 'patient' -- more broadly, 'affected entity').In linguistics, most arguments (NPs) of a relation can be classified in terms of three core participant (or 'thematic', 'theta') roles: <AGENT>, <PATIENT> (here termed 'object'), and <INSTRUMENT>. Because these three argument roles are so central to the way humans conceptualize events, we are representing all three as subclasses of <PARTICIPANT>. We plan to have all three types of <PARTICIPANT> represented as subclasses of BFO:role if we maintain these relations. See also BioTop (bio-upper-ontology).NEMO_relationshas_objecthas_specified_output_of may be a subclass; has_specified_input_of may be a subclasshttp://www.co-ode.org/ontologies/basic-bio/advanced-relational-properties.owl#is_acted_on_byis_acted_on_byobject_in is a type of relation that takes a process as its domain and a non-agentive object (independent_continuant) as its range.is_z_coordinate_measurement_of...[incomplete]2010-06-152010-06-16Domain =one_dimensional_zcoordinate_measurement_datum (NEMO_9503000); Range = zero_dimensional_region -- e.g., anatomical_point (NEMO_1111115)NEMO_relationsis_z_coordinate_measurement_ofis_y_coordinate_measurement_of...[incomplete]...2010-06-152010-06-16Domain =one_dimensional_ycoordinate_measurement_datum (NEMO_9388000); Range = zero_dimensional_region -- e.g., anatomical_point (NEMO_1111115)NEMO_relationsis_y_coordinate_measurement_ofis_temporal_measurement_of...[incomplete]2010-06-152010-06-16Domain = temporal_measurement_datum; Range = temporal_regionNEMO_relationsis_temporal_measurement_ofis_realized_as2011-07-032011-07-03OBO NOTE: "there appears to be some consistency in usage as to whether processes or continuants realize" (probably "inconsistency" was intended here?)Ontology for Biomedical Investigations (OBI)Relation between a realizable and a process. Reciprocal relation of realizeshttp://purl.org/obo/owl/OBO_REL#realized_byhttp://purl.org/obo/owl/OBO_REL#realized_byrealized_asis_x_coordinate_measurement_of...[incomplete]2010-06-152010-06-16Domain =one_dimensional_xcoordinate_measurement_datum (NEMO_9128000); Range = zero_dimensional_region -- e.g., anatomical_point (NEMO_1111115)NEMO_relationsis_x_coordinate_measurement_ofis_spatial_measurement_of...[incomplete]2010-06-152010-06-16Domain = spatial_measurement_datum; Range = spatial_regionNEMO_relationsis_spatial_measurement_ofhas_quality_measurement...[incomplete]2010-05-272010-05-28Domain =entity; Range = data_itemNEMO_relationshas_quality_measurementsuperior_to2010-04-052010-05-16NEMO_relationsObject A is superior to object B just in case object A is located closer to the top of the head (vertex) and object B is located closer to the neck.Spatial relations in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.The eyes are superior_to the nose.superior_tosuperior_to is the inverse_to inferior_to.www.upstate.edu/cdb/grossanat/glossary.shtmloccurs_at..[incomplete]2010-07-232010-07-23Curator.NEMO_relationsdomain = process boundary; range = temporal instantoccurs_atoccurs_at is the processual equivalent of located_in, where the subject is a punctate event (e.g., onset or offset of a process), then the predicate specifies single time point (similar to a point in space).inferior_to2010-04-052010-05-16NEMO_relationsSpatial relations in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.The nose is inferior to the eyes.inferior_toinferior_to is the inverse to superior_to.textDefinition: Object A is inferior to object B just in case object A is located closer to the neck and object B is located closer to the top of the head.www.upstate.edu/cdb/grossanat/glossary.shtmlhas_standard_deviation_intensity_measurement...[incomplete]2010-06-152010-06-16Domain = intensity (PATO_0000049); Range = standard_deviation_intensity_measurement_datum (NEMO_2049000)NEMO_relationshas_standard_deviation_intensity_measurementobject_of2010-05-272011-07-27In linguistics, most arguments (NPs) of a relation can be classified in terms of three core participant (or 'thematic', 'theta') roles: <AGENT>, <PATIENT> (here termed 'object'), and <INSTRUMENT>. Because these three argument roles are so central to the way humans conceptualize events, we are representing all three as subclasses of <PARTICIPANT>. We plan to have all three types of <PARTICIPANT> represented as subclasses of BFO:role if we maintain these relations. See also BioTop (bio-upper-ontology).In linguistics, the term 'patient' would be used, rather than 'object' but it may be more subject to misinterpretation. NEMO_relationshttp://www.co-ode.org/ontologies/basic-bio/advanced-relational-properties.owl#acts_onis_specified_output_of may be a subclass; is_specified_input_of may be a subclassobject_in is a type of relation that takes a non-agentive object (continuant) as its domain and a process as its range.object_ofis_temporal_onset_measurement_of...[incomplete]2010-06-152010-06-27Domain =latency_onset_measurement_datum (NEMO_5662000); Range = event_onset_latency (NEMO_0000374)NEMO_relationsis_temporal_onset_measurement_ofhas_instrument2010-05-272010-05-28In a measurement process, the devices (=tools) used to detect, transform, represent, and record the data can be construed as "instruments."In linguistics, most arguments (NPs) of a relation can be classified in terms of three core participant (or 'thematic', 'theta') roles: <AGENT>, <PATIENT> (here termed 'object'), and <INSTRUMENT>. Because these three argument roles are so central to the way humans conceptualize events, we are representing all three as subclasses of <PARTICIPANT>. We plan to have all three types of <PARTICIPANT> represented as subclasses of BFO:role if we maintain these relations. See also BioTop (bio-upper-ontology).NEMO_relationshas_instrumenthas_instrument is a type of relation that takes a process as its domain and a particular class of object (instruments --> tools, resources) as its range.has_meansinspired by BioTop analog (has_means), though this relation is not defined in the owl ontologyis_onset_ofis_standard_deviation_intensity_measurement_of...[incomplete]2010-06-152010-06-16Domain = standard_deviation_intensity_measurement_datum (NEMO_2049000); Range = intensity (PATO_0000049)NEMO_relationsis_standard_deviation_intensity_measurement_ofhas_peak_latency_measurement...[incomplete]2010-06-152010-06-27Domain =temporal_region -- e.g., event_peak_latency (NEMO_0000524); Range = peak_latency_measurement_datum (NEMO_0745000)NEMO_relationshas_peak_latency_measurementis_temporal_offset_measurement_of...[incomplete]2010-06-152010-06-27Domain =latency_offset_measurement_datum (NEMO_1180000); Range = event_offset_latency (NEMO_0000375)NEMO_relationsis_temporal_offset_measurement_ofhas_ICE...[incomplete]2010-06-152010-06-16Domain = entity; Range = information_content_entityNEMO_relationshas_ICEhas_information_content_entityis_intensity_measurement_of...[incomplete]2010-06-152010-06-16Domain = intensity_measurement_datum (NEMO_6902000); Range = intensity (PATO_0000049)NEMO_relationsis_intensity_measurement_ofhas_temporal_onset_measurement...[incomplete]2010-06-152010-06-27Domain = temporal_region -- e.g., event_onset_latency (NEMO_0000374); Range = latency_onset_measurement_datum (NEMO_5662000)NEMO_relationshas_temporal_onset_measurementis_moment_of2010-12-312010-12-31[incomplete]curatordomain = temporal instant; range = process boundaryis_moment_ofhas_x_coordinate_measurement...[incomplete]2010-06-152010-06-16Domain =zero_dimensional_region -- e.g., anatomical_point (NEMO_1111115); Range = one_dimensional_xcoordinate_measurement_datum (NEMO_9128000)NEMO_relationshas_x_coordinate_measurementinstrument_of2010-05-272010-05-28In a measurement process, the devices (=tools) used to detect, transform, represent, and record the data can be construed as "instruments."In linguistics, most arguments (NPs) of a relation can be classified in terms of three core participant (or 'thematic', 'theta') roles: <AGENT>, <PATIENT> (here termed 'object'), and <INSTRUMENT>. Because these three argument roles are so central to the way humans conceptualize events, we are representing all three as subclasses of <PARTICIPANT>. We plan to have all three types of <PARTICIPANT> represented as subclasses of BFO:role if we maintain these relations. See also BioTop (bio-upper-ontology).NEMO_relationsinspired by BioTop analog (is_means_of), though this relation is not defined in the owl ontologyinstrument_ofinstrument_of is a type of relation that takes a particular class of object (instruments --> tools, resources) as its domain and a process as its range.is_means_ofhas_y_coordinate_measurement...[incomplete]2010-06-152010-06-16Domain =zero_dimensional_region -- e.g., anatomical_point (NEMO_1111115); Range = one_dimensional_ycoordinate_measurement_datum (NEMO_9388000)NEMO_relationshas_y_coordinate_measurementhas_mean_intensity_measurement2010-06-152010-06-16Domain = intensity (PATO_0000049); Range = mean_intensity_measurement_datum (NEMO_9201000)NEMO_relations[incomplete]...has_mean_intensity_measurementhas_spatial_measurement...[incomplete]2010-06-152010-06-16Domain =spatial_region; Range = spatial_measurement_datumNEMO_relationshas_spatial_measurementoccurs_within...[incomplete]2010-07-232010-07-23Curator.NEMO_relationsdomain =processual entity; range = temporal entityoccurs_withinoccurs_within is the processual equivalent of located_in, where where the subject is a processual entity either an extended process or a punctate event), and the predicate specifies a time interval (similar to an extended spatial_region); does not imply that processual entity is present throughout interval.has_provenance_specification2010-06-272010-06-27Domain = entity; Range = labelNEMO_relationsTEMPORARY RELATION.PLACEHOLDER UNTIL WE HAVE MORE PRECISE RELATIONS TO LINK SUBJECT/SUBJECT_ID, EXPERIMENT/EXPERIMENT_ID, ETC. TO ERP_PATTERNS AND PATTERN ATTRIBUTES.has_provenance_specificationonsets_at...[incomplete]...[incomplete]...[incomplete]2010-10-092010-11-05NEMO_relationsonsets_atis_realization_of2011-07-032011-07-03Ontology for Biomedical Investigations (OBI)Relation between a process and a function, where the unfolding of the process requires the execution of the function. Class level: P realizes F iff: given any p that instantiates P, there exists some f, t such that f instantiates F at t and p *realizes* f. Here, *realizes* is the primitive instance level relationdomain = process (e.g., plan execution); range = specifically dependent continuant (e.g., plan)http://purl.org/obo/owl/OBO_REL#realizeshttp://purl.org/obo/owl/OBO_REL#realizesrealizesspecifies_provenance_of2010-06-272010-07-09Domain = label; Range = entityNEMO_relationsTEMPORARY RELATION.PLACEHOLDER UNTIL WE HAVE MORE PRECISE RELATIONS TO LINK SUBJECT/SUBJECT_ID, EXPERIMENT/EXPERIMENT_ID, ETC. TO ERP_PATTERNS AND PATTERN ATTRIBUTES.specifies_provenance_ofis_offset_ofhas_intensity_measurement...[incomplete]2010-06-152010-06-16Domain = intensity (PATO_0000049); Range = intensity_measurement_datum (NEMO_6902000)NEMO_relationshas_spatial_measurementis_mean_intensity_measurement_of...[incomplete]2010-06-152010-06-16Domain = mean_intensity_measurement_datum (NEMO_9201000); Range = intensity (PATO_0000049)NEMO_relationsis_mean_intensity_measurement_ofhas_temporal_offset_measurement...[incomplete]2010-06-152010-06-27Domain = temporal_region -- e.g., event_offset_latency (NEMO_0000375); Range = latency_offset_measurement_datum (NEMO_1180000)NEMO_relationshas_temporal_offset_measurementoffsets_at...[incomplete]...[incomplete]...[incomplete]2010-10-092010-11-05NEMO_relationsoffsets_atis_duration_measurement_of...[incomplete]2010-06-152010-06-27Domain =duration_measurement_datum (NEMO_0670000); Range = event_related_temporal_interval (NEMO_0000320)NEMO_relationsis_duration_measurement_ofoccurs_throughout2010-10-092010-12-03NEMO_relationsdomain =processual entity; range = temporal entityoccurs_throughoutoccurs_throughout is the processual equivalent of located_in, where where the subject is an extended process or a punctate event), and the predicate specifies a time interval (similar to an extended spatial_region). Implies that processual entity is present throughout interval.has_label...[incomplete]2010-06-152010-06-16Domain = entity; Range = labelNEMO_relationshas_labelis_peak_latency_measurement_of2010-05-272010-06-27A temporal measurement datum that reflects the maximal (peak) latency of a processDomain =peak_latency_measurement_datum (NEMO_0745000); Range = event_peak_latency (NEMO_0000524)NEMO_relationsis_peak_latency_measurement_ofexists_during...[incomplete]2010-07-232010-10-30An entity exists during (or coincident with) some process or event just in case the entity exists within the temporal window in which the process or event occurs.Curator.NEMO_relationsexists_duringhttp://purl.org/obo/owl/OBO_REL#exists_duringrange = processual entityis_label_of...[incomplete]2010-06-152010-06-16Domain = label; Range = entityNEMO_relationsis_label_ofhas_z_coordinate_measurement...[incomplete]2010-06-152010-06-16Domain =zero_dimensional_region -- e.g., anatomical_point (NEMO_1111115); Range = one_dimensional_zcoordinate_measurement_datum (NEMO_9503000)NEMO_relationsis_label_ofpeaks_at...[incomplete]...[incomplete]...[incomplete]2010-10-092010-11-05NEMO_functionalpeaks_athas_duration_measurement2010-06-272010-06-27Domain =temporal_region -- e.g., event_related_temporal_interval (NEMO_0000320); Range = duration_measurement_datum (NEMO_0670000)NEMO_relationshas_duration_measurementhas_frequency_measurement2010-08-072010-08-07Domain = frequency (NEMO_2322000); Range = frequency_measurement_datum (NEMO_7677000)NEMO_relations[incomplete...]has_frequency_measurementis_peak_ofhas_measurement_unit_label...[incomplete]2010-05-192010-05-19Information Artifact Ontology (IAO)NEMO_relationsTerm definition missing in the source_ontologyhas_measurement_unit_labelis_about2010-05-192010-05-19Domain = information_content_entity; Range = entityInformation Artifact Ontology (IAO)NEMO_relationshttp://purl.obolibrary.org/obo/IAO_0000136is_aboutis_about is a (currently) primitive relation that relates an information artifact to an entity.is_quality_measurement_of2010-05-272010-05-28Information Artifact Ontology (IAO)NEMO_relationsdomain = data_item; range = entityis_quality_measurement_ofm is a quality measurement of q at t when q is a quality there is a measurement process p that has specified output m, a measurement datum, that is about qhas_coordinate_unit_label...[incomplete]2010-05-192010-05-19Information Artifact Ontology (IAO)NEMO_relationsRelating a cartesian spatial coordinate datum to a unit label that together with the values represent a point.has_coordinate_unit_labelhas_specified_input2010-05-192010-05-19A relation between a planned process and a continuant participating in that process that is not created during the process. The presence of the continuant during the process is explicitly specified in the plan specification which the process realizes the concretization of.NEMO_relationsOntology for Biomedical Investigations (OBI)has_specified_inputis_concretization_of2010-05-192010-05-19NEMO_relationsOntology for Biomedical Investigations (OBI)domain= specifically dependent continuanthttp://purl.obolibrary.org/obo/OBI_0000294is_concretization_ofis_concretization_of is a relationship between a generically dependent continuant and a specifically dependent continuant. A generically dependent continuant may inhere in more than one entity. It does so by virtue of the fact that there is, for each entity that it inheres, a specifically dependent *concretization* of the generically dependent continuant that is specifically dependent. For instance, consider a story, which is an information artifact that inheres in some number of books. Each book bears some quality that carries the story. The relation between this quality and the generically dependent continuant is that the former is the concretization of the latter.is_specified_input_of2010-05-192010-05-19A relation between a planned process and a continuant participating in that process that is not created during the process. The presence of the continuant during the process is explicitly specified in the plan specification which the process realizes the concretization of.NEMO_relationsOntology for Biomedical Investigations (OBI)is_specified_input_ofis_concretized_as2010-05-192010-05-19NEMO_relationsOntology for Biomedical Investigations (OBI)is_concretized_asis_concretized_as is a relationship between a specifically dependent continuant and a generically dependent continuant. A generically dependent continuant may inhere in more than one entity. It does so by virtue of the fact that there is, for each entity that it inheres, a specifically dependent *concretization* of the generically dependent continuant that is specifically dependent. For instance, consider a story, which is an information artifact that inheres in some number of books. Each book bears some quality that carries the story. The relation between this quality and the generically dependent continuant is that the former is the concretization of the latter.range = specifically dependent continuanthas_quality2010-05-272010-10-31A relation between an entity and a quality. For types: E has_quality Q iff: for any eEt, exists qQt such that q inheres_in e at t. For instances: e has_quality q at t iff q inheres_in e at t and q instance-of Quality [GOC:cjm]NEMO_relationsOntology for Biomedical Investigations (OBI)Range = qualityhas_qualityhas_specified_output2010-05-192010-05-19A relation between a planned process and a continuant participating in that process. The presence of the continuant at the end of the process is explicitly specified in the objective specification which the process realizes the concretization of.NEMO_relationsOntology for Biomedical Investigations (OBI)has_specified_outputis_specified_output_of2010-05-192010-05-19A relation between a planned process and a continuant participating in that process. The presence of the continuant at the end of the process is explicitly specified in the objective specification which the process realizes the concretization of.NEMO_relationsOntology for Biomedical Investigations (OBI)is_specified_output_ofhas_role2010-05-272010-10-30A relation between a continuant C and a role R. The reciprocal relation of role_of.A relation between a planned process and a continuant participating in that process. The presence of the continuant at the end of the process is explicitly specified in the objective specification which the process realizes the concretization of.NEMO_relationsOntology for Biomedical Investigations (OBI)Range = rolehas_rolebearer_of2010-05-202010-10-30A relation between an entity and a dependent continuant; the reciprocal relation of inheres_in [GOC:cjm]. Example of usage: red eye bearer_of rednessHas alternative ID OBO_REL:0000027NEMO_relationsOBO Relation Ontology (RO)OBO_REL:0000027Range =dependent continuant. Ask OBI/IAO why domain is specified as independent_continuant rather than 'entity' (want to talk about qualities that inhere_in ERP patterns!)bearer_ofhas_inherenthas_inhererinheres_in2010-05-202010-05-20A relation between a dependent continuant D and an entity E. D inheres_in E iff: given any d that instantiates D at t, there exists some e that instantiates E at t and d *inheres_in* e at t. Here *inheres_in* is the primitive instance level relation.Has alternative ID OBO_REL:0000026NEMO_relationsOBO Relation Ontology (RO)OBO_REL:0000026This relation links qualities, functions, dispositions and other dependent continuants to their bearers. Examples: A particular shape that inheres in a lung; The redness that ineres in a Drosophila eye; Catalytic activity function inheres_in catalytic molecule. Note that inherence is a functional relation: if x inheres_in y at t and x inheres_in z at t, then y=z. We leave open the possibility of a relation multiply_inheres_in, such as between a gene sequence and the multiple chromosomes it multiply inheres in. The super-relation of both inheres_in and multiply_inheres_in would be depends_on.domain = dependent continuant. Ask OBI/IAO why range is specified as independent_continuant rather than 'entity' (want to talk about qualities that inhere_in ERP patterns!)has_bearerinheres_inquality_of...[incomplete]2010-05-272010-05-28NEMO_relationsdomain = qualityquality_ofrole_of...[incomplete]2010-05-272010-05-28NEMO_relationsdomain=rolerole_ofunfolds_in2010-05-272010-05-28NEMO_relationsOBI specifies range as independent_continuant...OBO Relation Ontology (RO)P unfolds_in C : the execution of P is spatially contained by C. forall pP, forall c' partipates_in p, c' located_in C at t, for some t in Pdomain = processual entityunfolds_inadjacent_to2010-05-192010-05-19C adjacent to C' if and only if: given any instance c that instantiates C at a time t, there is some c' such that: c' instantiates C' at time t and c and c' are in spatial proximity.Has alternative ID OBO_REL:0000012NEMO_relationsOBO Relation Ontology (RO)OBO_REL:0000012adjacent_toagent_in2010-05-202011-11-19NEMO_relationsNot equivalent to BFO/OBO "agent" relationagent_inagent_in is a type of relation that takes an agentive object (continuant) as its domain and a process as its range.is_actor_ofcontained_in2010-05-192010-05-19C contained_in C' if and only if: given any instance c that instantiates C at a time t, there is some c' such that: c' instantiates C' at time t and c located_in c' at t, and it is not the case that c *overlaps* c' at t. (c' is a conduit or cavity.)Has alternative ID OBO_REL:0000010NEMO_relationsOBO Relation Ontology (RO)OBO_REL:0000010contained_incontains...[incomplete]2010-05-192010-05-19Has alternative ID OBO_REL:0000011NEMO_relationsOBO Relation Ontology (RO)OBO_REL:0000011containsderived_into2011-05-28OBO Relation Ontology (RO)http://www.obofoundry.org/ro/ro.owl#derived_intoinverse of derives_fromderives_from2011-05-28Also see OPMO http://purl.org/net/opmv/ns#wasDerivedFromAlso used in provenir, which has the following definition: "Similar to definition in RO, this property links two entities that preserve their identity between the two transformation stages."Derivation as a relation between instances. The temporal relation of derivation is more complex. Transformation, on the instance level, is just the relation of identity: each adult is identical to some child existing at some earlier time. Derivation on the instance-level is a relation holding between non-identicals. More precisely, it holds between distinct material continuants when one succeeds the other across a temporal divide in such a way that at least a biologically significant portion of the matter of the earlier continuant is inherited by the later. Thus we will have axioms to the effect that from c derives_from c1 we can infer that c and c1 are not identical and that there is some instant of time t such that c1 exists only prior to and c only subsequent to t. We will also be able to infer that the spatial region occupied by c as it begins to exist at t overlaps with the spatial region occupied by c1 as it ceases to exist in the same instant.OBO Relation Ontology (RO)http://www.obofoundry.org/ro/ro.owl#derives_fromhas_agent2010-05-202010-05-20As for has_participant, but with the additional condition that the component instance is causally active in the relevant processHas alternative ID OBO_REL:0000021NEMO_relationsOBO_REL:0000021Relation Ontology (RO)has_actorhas_agenthas_part...[incomplete]2010-05-192010-05-19Has alternative ID OBO_REL:0000003NEMO_relationsOBO Relation Ontology (RO)OBO_REL:0000003has_parthas_participant2010-05-192010-05-19Has alternative ID OBO_REL:0000019NEMO_relationsOBO Relation Ontology (RO)OBO_REL:0000019P has_participant C if and only if: given any process p that instantiates P there is some continuant c, and some time t, such that: c instantiates C at t and c participates in p at t.domain = occurrenthas_participanthas_proper_part...[incomplete]2010-05-192010-05-19Has alternative ID OBO_REL:0000007NEMO_relationsOBO_REL:0000007Relation Ontology (RO)has_proper_partlocated_in2010-05-192010-05-19C located_in C' if and only if: given any c that instantiates C at a time t, there is some c' such that: c' instantiates C' at time t and c *located_in* c'. (Here *located_in* is the instance-level location relation.)Has alternative ID OBO_REL:0000008Location as a relation between instances: The primitive instance-level relation c located_in r at t reflects the fact that each continuant is at any given time associated with exactly one spatial region, namely its exact location. Following we can use this relation to define a further instance-level location relation - not between a continuant and the region which it exactly occupies, but rather between one continuant and another. c is located in c1, in this sense, whenever the spatial region occupied by c is part_of the spatial region occupied by c1. Note that this relation comprehends both the relation of exact location between one continuant and another which obtains when r and r1 are identical (for example, when a portion of fluid exactly fills a cavity), as well as those sorts of inexact location relations which obtain, for example, between brain and head or between ovum and uterus.NEMO_relationsOBO Relation Ontology (RO)OBO_REL:0000008located_inlocation_of...[incomplete]2010-05-192010-05-19Has alternative ID OBO_REL:0000009NEMO_relationsOBO Relation Ontology (RO)OBO_REL:0000009location_ofpart_of2010-05-192010-05-19For continuants: C part_of C' if and only if: given any c that instantiates C at a time t, there is some c' such that c' instantiates C' at time t, and c *part_of* c' at t. For processes: P part_of P' if and only if: given any p that instantiates P at a time t, there is some p' such that p' instantiates P' at time t, and p *part_of* p' at t. (Here *part_of* is the instance-level part-relation.)Has alternative ID OBO_REL:0000002NEMO_relationsOBO Relation Ontology (RO)OBO_REL:0000002Parthood as a relation between instances: The primitive instance-level relation p part_of p1 is illustrated in assertions such as: this instance of rhodopsin mediated phototransduction part_of this instance of visual perception. This relation satisfies at least the following standard axioms of mereology: reflexivity (for all p, p part_of p); anti-symmetry (for all p, p1, if p part_of p1 and p1 part_of p then p and p1 are identical); and transitivity (for all p, p1, p2, if p part_of p1 and p1 part_of p2, then p part_of p2). Analogous axioms hold also for parthood as a relation between spatial regions. For parthood as a relation between continuants, these axioms need to be modified to take account of the incorporation of a temporal argument. Thus for example the axiom of transitivity for continuants will assert that if c part_of c1 at t and c1 part_of c2 at t, then also c part_of c2 at t. Parthood as a relation between classes: To define part_of as a relation between classes we again need to distinguish the two cases of continuants and processes, even though the explicit reference to instants of time now falls away. For continuants, we have C part_of C1 if and only if any instance of C at any time is an instance-level part of some instance of C1 at that time, as for example in: cell nucleus part_ of cell.part_ofparticipates_in...[incomplete]2010-05-192010-05-19Has alternative ID OBO_REL:0000020NEMO_relationsOBO Relation Ontology (RO)OBO_REL:0000020participates_inrange = occurrentpreceded_by2010-05-202010-05-20Has alternative ID OBO_REL:0000017NEMO_relationsOBO Relation Ontology (RO)OBO_REL:0000017OBO_REL:0000018P preceded_by P' if and only if: given any process p that instantiates P at a time t, there is some process p' such that p' instantiates P' at time t', and t' is earlier than t.preceded_by2010-05-272010-05-28Has alternative ID OBO_REL:0000018NEMO_relationsOBO Relation Ontology (RO)P has_participant C if and only if: given any process p that instantiates P there is some continuant c, and some time t, such that: c instantiates C at t and c participates in p at tprecedesproper_part_of2010-05-192010-05-19As for part_of, with the additional constraint that subject and object are distinct.Has alternative ID OBO_REL:0000006NEMO_relationsOBO_REL:0000006Relation Ontology (RO)proper_part_ofhas_character_string_value...[incomplete]2010-06-272010-06-27Domain = label (IAO_0000009) -- or any subclass of label; Datatype (Range) = string (typed literal)NEMO_relationshas_character_string_valuehas_date_value2011-11-192011-11-19Domain = subclass of process or process_boundary
Datatype (Range) = date (typed literal)has_date_valuehas_measurement_unit...[incomplete]2010-05-292010-06-27Domain = data_item (IAO_0000027)-- or any subclass of data_item; Range = unit_of_meaure (IAO_0000125) -- or any subclassof unit_of_measureInformation Artifact Ontology (IAO)has_numeric_value...[incomplete]2010-06-272010-06-27Domain = data_item (IAO_0000027)-- or any subclass of data_item; Datatype (Range) = decimal (typed literal)NEMO_relationshas_numeric_valuebook2011-05-292011-05-29A resource that provides access to a written or printed work of fiction or nonfiction, usually on sheets of paper fastened or bound together within covers.NEMO_databook is a narrative_resource that...[incomplete]http://bioontology.org/ontologies/BiomedicalResourceOntology.owl#Bookconference_proceeding2011-05-292011-05-29A resource the provides access to papers and/or talk and poster abstracts that are presented at a conference.CONSIDER DEPRECATINGNEMO_datahttp://bioontology.org/ontologies/BiomedicalResourceOntology.owl#Conference_Proceedingjournal_article is an information_content_entity that...[incomplete]journal_article2011-05-292011-05-29A resource that provides access to reports that are published in journalsNEMO_datahttp://bioontology.org/ontologies/BiomedicalResourceOntology.owl#Journal_Articlejournal_article is an information_content_entity that...[incomplete]narrative_resource2011-05-292011-05-29A resource that provides a literary work, book, story, textual description, or account of events, experiences, or the like, whether true or fictitious. a narrative_resource is an information_content_entity that...[incomplete]http://bioontology.org/ontologies/BiomedicalResourceOntology.owl#Narrative_Resourcehttp://purl.obolibrary.org/obo/IAO_0000310narrative_resourceontology2011-05-282011-05-28A resource that provides access to a set of concepts within a domain and the relationships between those concepts, used to reason about the objects within that domain. [incomplete]http://bioontology.org/ontologies/BiomedicalResourceOntology.owl#Ontologyhttp://ontology.neuinfo.org/NIF/DigitalEntities/NIF-Investigation.owl#birnlex_2339thesis2011-05-292011-05-29A resource that provides access to a document created to summarize research findings associated with the completion of an academic degree.NEMO_dataan experimental_protocol_description is a narrative_resource that is_about some plan_specification (e.g., study_design, protocol, and/or experimental_condition)http://bioontology.org/ontologies/BiomedicalResourceOntology.owl#Thesisthesiscognitive_assessment2010-04-242010-07-27An assessment that measures behavioral quality.Imported into NEMO_functionalNEMO_imported_classesNIFSTDNo term definition at this URI.cognitive_assessmenthttp://ontology.neuinfo.org/NIF/DigitalEntities/NIF-Investigation.owl#birnlex_2021part of an investigationbehavioral_assessment2010-04-242010-05-27An assessment that measures behavioral quality.Imported into NEMO_functionalNEMO_imported_classesNIFSTDbehavioral_assessmenthttp://ontology.neuinfo.org/NIF/DigitalEntities/NIF-Investigation.owl#birnlex_2025part of an investigationdata_resource2011-05-282011-05-28A resource that provides access to data that may be in different forms, e.g., databases vs datum, and of different types, e.g., images.[incomplete]http://ontology.neuinfo.org/NIF/DigitalEntities/NIF-Resource.owl#nlx_res_20090102database2011-05-282011-05-28A data resource that delivers its' data by way of a 'database', which involves a structured data store and interrogation methods for data selection.[incomplete]http://bioontology.org/ontologies/BiomedicalResourceOntology.owl#Databasehttp://ontology.neuinfo.org/NIF/DigitalEntities/NIF-Resource.owl#nlx_res_20090405ERP_topography2009-05-072010-07-22ERP_spatial_patternERP_topographyERP_topography is a Quality (incomplete)ERP_topography is the pattern or distribution of positive (source) and negative (sink) electrical potentials over an anatomical_region (over a two-dimensional scalp_surface_region if measured on the head surface, and over a three-dimensional brain_region if measured intracranially or if scalp-measured patterns have been source modeled). It has a strength (amplitude, measured in microvolts), which can vary over time.NEMO_spatialscalp_region2009-05-072011-04-22A scalp_region is a three-dimensional spatial region, whose coordinates are defined with respect to anatomical landmarks on and within the scalp. The spatial subdivisions of the scalp reflect subdivisions of the skull, which are named after the four major lobes of the cerebral cortex — i.e., frontal, temporal, parietal, and occipital.A scalp_region is an anatomical_region that is the exact location_of some scalpNEMO_spatialhttp://en.wikipedia.org/wiki/Human_skullscalp ROIscalp_regionscalp_region_of_interestfrontocentral_scalp_surface_region2009-05-072011-04-27A frontocentral_scalp_surface_region is a region of the scalp surface that is centered about ITT electrode Fcz. It is rostral to the parietal_scalp_surface_region, caudal to the frontopolar_scalp_surface_region, and medial to the left and right frontotemporal scalp regions.A frontocentral_scalp_surface_region is a regional_part_of_scalp_surface_region that is the exact location_of some frontocentral_scalp_surface.Look into usage of fusion_of with respect to defining one spatial_region as a combination of smaller regions in mereology (GF 5/2/2009).NEMO_spatialfrontal_scalp_surface_regionfrontocentral_scalp_surface_regionparietal_scalp_surface_region2009-05-072011-04-27A parietal_scalp_surface_region is a region of the scalp surface that is centered about ITT electrode CPz. It is rostral to the occipital_scalp_surface_region, caudal to the frontocentral_scalp_surface_region, and medial to the left and right posterotemporal scalp surface regions..A parietal_scalp_surface_region is a regional_part_of_scalp_surface_region that is the exact location_of some parietal_scalp_surface.Curator.Look into usage of fusion_of with respect to defining one spatial_region as a combination of smaller regions in mereology (GF 5/2/2009).NEMO_spatialparietal_scalp_surface_regionoccipital_scalp_surface_region2009-05-072011-04-27An occipital_scalp_region is the region of the scalp surface that is centered about ITT electrode Oz. It is caudal to the parietal_scalp_region and medial to the left and right posterotemporal scalp regions.An occipital_scalp_surface_region is a regional_part_of_scalp_surface_region that is the exact location_of some occipital_scalp_surface.Curator.Look into usage of fusion_of with respect to defining one spatial_region as a combination of smaller regions in mereology (GF 5/2/2009).NEMO_spatialoccipital_scalp_surface_regionfrontopolar_scalp_surface_region2009-05-072011-04-27A frontopolar_scalp_region is the region of the scalp surface that is centered about ITT electrode Fpz. It is rostral to the frontocentral_scalp_region and medial to the left and right anterotemporal scalp regions.A frontopolar_scalp_surface_region is a regional_part_of_scalp_surface_region that is the exact location_of some frontopolar_scalp_surface.Curator.Look into usage of fusion_of with respect to defining one spatial_region as a combination of smaller regions in mereology (GF 5/2/2009).NEMO_spatialfrontopolar_scalp_surface_regionorbitofrontal _scalp_regionfrontotemporal_scalp_surface_region2009-05-072011-04-27A frontotemporal_scalp_region is the region of the scalp surface that is lateral to the frontocentral scalp region. The left frontotemporal_scalp_region is centered about ITT electrode F7 and is left of the left frontocentral scalp region and rostral to the left posterotemporal_scalp_region. The right frontotemporal_scalp_region is centered about ITT electrode F8 and is right of the right frontocentral scalp region and rostral to the right posterotemporal_scalp_region.A frontotemporal_scalp_surface_region is a regional_part_of_scalp_surface_region that is the exact location_of some frontotemporal_scalp_surface.Curator.Look into usage of fusion_of with respect to defining one spatial_region as a combination of smaller regions in mereology (GF 5/2/2009).NEMO_spatialanterotemporal_scalp_regionfrontotemporal_scalp_surface_regionposterotemporal_scalp_surface_region2009-05-072011-04-27A posterotemporal_scalp_region is a region of the scalp surface that is lateral to the parietal scalp region.A posterotemporal_scalp_surface_region is a regional_part_of_scalp_surface_region that is the exact location_of some posterotemporal_scalp_surface.Curator.Look into usage of fusion_of with respect to defining one spatial_region as a combination of smaller regions in mereology (GF 5/2/2009).NEMO_spatialposterotemporal_scalp_surface_regionleft_frontotemporal_scalp_surface_region2009-05-072011-04-27Curator.NEMO_spatialThe following ITT channels are located_in this scalp_region: AF7, F5, F7, F9, FC5, FT7, FT9, T9.left_frontotemporal_scalp_region is the left part of the frontotemporal_scalp_region. It is left of the left_frontocentral_scalp_region and rostral to the left_posterotemporal_scalp_region.left_frontotemporal_scalp_surface_regionright_frontotemporal_scalp_surface_region2009-05-072011-04-27NEMO_spatialThe following ITT channels are located_in this scalp_region: AF8, F10, F6, F8, FC6, FT8, FT10, T10.right_frontotemporal_scalp_region is the right part of the frontotemporal_scalp_region. It is right of the right_frontocentral_scalp_region and rostral to the right_posterotemporal_scalp_region.right_frontotemporal_scalp_surface_regionright_frontotemporal_scalp_surface_region is a frontotemporal_scalp_surface_region that...[incomplete]left_frontocentral_scalp_surface_region2009-05-072011-04-27A left_frontocentral_scalp_surface_region the left part of the frontocentral_scalp_surface_region. It is right of the left_frontotemporal_scalp_surface_region, rostral to the left_parietal_scalp_surface_region, and caudal to the left_frontopolar_scalp_surface_region.A left_frontocentral_scalp_surface_region is a frontocentral_scalp_surface_region that is the exact location_of some left_frontocentral_scalp_surface.Curator.NEMO_spatialThe following ITT channels are located_in this scalp_region: F1, F3, FC1, FC3.left_frontocentral_scalp_surface_regionmedial_frontocentral_scalp_surface_region2009-05-072011-04-27A medial_frontocentral_scalp_surface_region the medial part of the frontocentral_scalp_surface_region. It is right of the left_frontocentral_scalp_surface_region, rostral to the medial_parietal_scalp_surface_region, and caudal to the medial_frontopolar_scalp_surface_region.A medial_frontocentral_scalp_surface_region is a frontocentral_scalp_surface_region that is the exact location_of some medial_frontocentral_scalp_surface.Curator.NEMO_spatialThe following ITT channels are located_in this scalp_region: Afz, Fcz, Fz.medial_frontocentral_scalp_surface_regionright_frontocentral_scalp_surface_region2009-05-072011-04-27A right_frontocentral_scalp_surface_region is a frontocentral_scalp_surface_region that is the exact location_of some right_frontocentral_scalp_surface.A right_frontocentral_scalp_surface_region is the right part of the frontocentral_scalp_surface_region. It is right of the medial_frontocentral_scalp_surface_region, rostral to the right_parietal_scalp_surface_region, and caudal to the right_frontopolar_scalp_surface_region.Curator.NEMO_spatialThe following ITT channels are located_in this scalp_region: F2, F4, FC2, FC4.right_frontocentral_scalp_surface_regionleft_occipital_scalp_surface_region2009-05-072011-04-27Curator.NEMO_spatialThe following ITT channels are located_in this scalp_region: O1, PO1, PO3, PO5.left_occipital_scalp_region is a occipital_scalp_surface_region that...left_occipital_scalp_region is the left part of the occipital_scalp_region. It is caudal to the left_parietal_scalp_region.left_occipital_scalp_surface_regionmedial_occipital_scalp_surface_region2009-05-072011-04-27Curator.NEMO_spatialThe following ITT channels are located_in this scalp_region: Oz.medial_occipital_scalp_region is the medial part of the occipital_scalp_region. It is caudal to the medial_parietal_scalp_region.medial_occipital_scalp_surface_regionmedial_occipital_scalp_surface_region is an occipital_scalp_surface_region that...[incomplete]left_frontopolar_scalp_surface_region2009-05-072011-04-27Curator.NEMO_spatialThe following ITT channels are located_in this scalp_region: AF1, AF3, AF5, FP1, LVEOG.left_frontopolar_scalp_region is the left part of the frontopolar_scalp_region. It is rostral to the left_frontocentral_scalp_region.left_frontopolar_scalp_surface_regionleft_frontopolar_scalp_surface_region is a frontopolar_scalp_surface_region that...medial_frontopolar_scalp_surface_region2009-05-072011-04-27Curator.NEMO_spatialThe following ITT channels are located_in this scalp_region: Fpz.medial_frontopolar_scalp_region is the medial part of the frontopolar_scalp_region. It is rostral to the medial_frontocentral_scalp_region.medial_frontopolar_scalp_surface_regionmedial_frontopolar_scalp_surface_region is frontopolar_scalp_surface_region that...right_frontopolar_scalp_surface_region2009-05-072011-04-27Curator.NEMO_spatialThe following ITT channels are located_in this scalp_region: AF2, AF4, AF6, FP2, RVEOG.right_frontopolar_scalp_region is the right part of the frontopolar_scalp_region. It is rostral to the right_frontocentral_scalp_region.right_frontopolar_scalp_surface_regionright_frontopolar_scalp_surface_region is a frontopolar_scalp_surface_region that...left_parietal_scalp_surface_region2009-05-072011-04-27Curator.NEMO_spatialThe following ITT channels are located_in this scalp_region: C1, C3, C5, CP1, CP3, CP5, P1, P3, P5.left_parietal_scalp_region is the left part of the parietal_scalp_region. It is right of the left_posterotemporal_scalp_region, rostral to the left_occipital_scalp_region, and caudal to the left_frontocentral_scalp_region.left_parietal_scalp_surface_regionleft_parietal_scalp_surface_region is a parietal_scalp_surface_region that...medial_parietal_scalp_surface_region2009-05-072011-04-27Curator.NEMO_spatialThe following ITT channels are located_in this scalp_region: CPz, Cz, Poz, Pz.medial_parietal_scalp_region is a parietal_scalp_region that...medial_parietal_scalp_region is the medial part of the parietal_scalp_region. It is right of the left_parietal_scalp_region, rostral to the medial_occipital_scalp_region, and caudal to the medial_frontocentral_scalp_region.medial_parietal_scalp_surface_regionright_parietal_scalp_surface_region2009-05-072011-04-27Curator.NEMO_spatialThe following ITT channels are located_in this scalp_region: C2, C4, C6, CP2, CP4, CP6, P2, P4, P6.right_parietal_scalp_surface_regionright_parietal_scalp_surface_region is parietal_scalp_surface_region that..right_parietal_scalp_surface_region is the right part of the parietal_scalp_region. It is right of the medial_parietal_scalp_region, rostral to the right_occipital_scalp_region, and caudal to the right_frontocentral_scalp_region.left_posterotemporal_scalp_surface_region2009-05-072011-04-27Curator.NEMO_spatialThe following ITT channels are located_in this scalp_region: PO7, PO9, P7, P9, T7, TP7, TP9.left_posterotemporal_scalp_surface_regionleft_posterotemporal_scalp_surface_region is posterotemporal_scalp_surface_region that...left_posterotemporal_scalp_surface_region is the left part of the posterotemporal_scalp_region. It is left of the left_parietal_scalp_region and caudal to the left_frontotemporal_scalp_region.right_posterotemporal_scalp_surface_region2009-05-072011-04-27Curator.NEMO_spatialThe following ITT channels are located_in this scalp_region: PO8, PO10, P8, P10,T8, TP8, TP10.right_posterotemporal_scalp_surface_regionright_posterotemporal_scalp_surface_region is posterotemporal_scalp_surface_region that...right_posterotemporal_scalp_surface_region is the right part of the posterotemporal_scalp_region. It is right of the right_parietal_scalp_region and caudal to the right_frontotemporal_scalp_region.ITT_electrode_location2009-05-072011-04-28An ITT_electrode_location is a point on the scalp surface that is defined by a standard distance (number of degrees) from the vertex, or center, of the scalp (electrode location Cz).An ITT_electrode_location is a scalp_surface_point that is a proper_part_of some scalp_surface_region.Curator.ITT electrode locations are listed and defined in Oostenveld and Praamstra (2001).ITT_electrode_locationInternational_10_10_electrode_locationNEMO_spatialevent_boundary...[incomplete]2009-07-062010-08-02An event_boundary is a ProcessBoundary that...[incomplete]NEMO_temporalevent_boundaryevent_boundary is a process_boundary that...[incomplete]ERP_pattern_offset ...[incomplete]...[incomplete]2009-06-062010-08-02An ERP_pattern_offset is an ERP_pattern_activation_boundary that ...[incomplete]ERP_pattern_offsetNEMO_temporalERP_pattern_onset ...[incomplete]...[incomplete]2010-04-292010-08-02An ERP_pattern_onset is an ERP_pattern_activation_boundary that ...[incomplete]ERP_pattern_onsetNEMO_temporalevent_offset...[incomplete]2009-06-062010-08-02Event_offset is the offset of some process.NEMO_temporalevent_offsetevent_offset is an event_boundary that occurs_at some event_offset_latencyevent_onset...[incomplete]2009-06-062010-07-26An event_onset is an event_boundary that occurs_at some event_onset_latencyEvent_onset is the onset of some process.NEMO_temporalevent_onsetevent_related_duration...[incomplete]2009-06-062009-08-02NEMO_temporalevent_related_durationevent_related_duration is a type of event_related_temporal_quality that characterizes the quality of duration of an occurrent (e.g., brief vs. extended duration of a process or an event).event_related_duration is an event_related_temporal_quality that...[incomplete]ERP_pattern_peak...[incomplete]...[incomplete]2009-06-062010-08-02An ERP_pattern_peak is an ERP_pattern_activation_boundary that ...[incomplete]ERP_pattern_peakNEMO_temporalscalp_recorded_ERP_component2009-06-072011-08-07A scalp_recorded_ERP_extracted_pattern is a dataset that represents patterns of variation in electrical activity at the scalp surface. The pattern will usually consist of amplitude measures (values) that are ordered with respect to spatial and temporal axes (dimensions).ERP dataERP patternNEMO_erpevent-related potential datascalp_recorded_ERP_extracted_patternscalp_recorded_ERP_extracted_pattern is an averaged_EEG_data_set
- and is_about SOME event_related_brain_activity
- and is_specified_output of SOME planned_processvisual_occipital_P100.4701402009-06-072011-06-08Luck, S. J., Heinze, H. J., Mangun, G. R., & Hillyard, S. A. (1990). Visual event-related potentials index focused attention within bilateral stimulus arrays. II Functional dissociation of P1 and N1 components. Electroencephalography & clinical Neurophysiology, 75, 528-542.NEMO_erpP1P100The visual_occipital_P100 is_a scalp-recorded_ERP_extracted_pattern
and has_proper_part SOME peak_latency_measurement_datum
that has_numeric_value SOME decimal[>="70", <="140"]
and has_proper_part SOME intensity_measurement_datum
that has_numeric_value SOME decimal[>="0.4"]
that is_quality_measurement_of SOME intensity
that inheres_in SOME scalp_recorded_ERP
that unfolds_in SOME occipital_scalp_surface_region
that occurs_in_response_to SOME onset_stimulus_presentation
that has_object SOME object
that has_role SOME object
and has_quality SOME visual
$and proper_part_of SOME averaged_EEG_data_set
$ that has_provenance_specification SOME event_type_label
$ that has_character_string_value SOME "stimulus_onset"
$ and has_provenance_specification SOME stimulus_type_label
$ that has_character_string_value SOME "object"
$ and has_provenance_specification SOME stimulus_modality_label
$ that has_character_string_value SOME "visual"
IF
$ 001 is proper_part_of SOME averaged EEG_data_set (002)
$ that has_provenance_specification SOME event_type_label
$ that has_character_string_value SOME "stimulus_onset"
AND
$002 is_about SOME scalp_recorded_ERP (003)
THEN
$003 occurs_in_response_to SOME onset_stimulus_presentation
IF
$ 001 is proper_part_of SOME averaged EEG_data_set (002)
$ that has_provenance_specification SOME stimulus_type_label
$ that has_character_string_value SOME "word"
AND
$002 is_about SOME scalp_recorded_ERP (003)
THEN
$003 occurs_in_response_to SOME onset_stimulus_presentation
that has_object SOME object
that has_role SOME stimulus_role
IF
$ 001 is proper_part_of SOME averaged EEG_data_set (002)
$ that has_provenance_specification SOME stimulus_modality_label
$ that has_character_string_value SOME "visual"
AND
$002 is_about SOME scalp_recorded_ERP (003)
THEN
$003 occurs_in_response_to SOME onset_stimulus_presentation
that has_object SOME object
that has_quality SOME visualvisual_occipital_P100visual_occipital_P100 is a positivity that is maximal over occipital scalp regions at about 70-140 ms after onset of a visual stimulus.visual_occipital_N100-.41502502009-06-072011-08-13Hopf, J.-M., Vogel, E.,Woodman, G., Heinze, H.-J., & Luck, S. (2002). Localizing visual discrimination processes in time and space. Journal of Neurophysiology, 88, 2088–2095.N1N100NEMO_erpThe visual_occipital_N100 is_a scalp-recorded_ERP_extracted_pattern
and has_proper_part SOME peak_latency_measurement_datum
that has_numeric_value SOME decimal[>="150", <="250"]
and has_proper_part SOME intensity_measurement_datum
that has_numeric_value SOME decimal[<="-0.4"]
that is_quality_measurement_of SOME intensity
that inheres_in SOME scalp_recorded_ERP
that unfolds_in SOME occipital_scalp_surface_region
and proper_part_of SOME averaged_EEG_data_set
that has_provenance_specification SOME event_type_label
that has_character_string_value SOME "stimulus_onset"
and has_provenance_specification SOME stimulus_type_label
that has_character_string_value SOME "object"
and has_provenance_specification SOME stimulus_modality_label
that has_character_string_value SOME "visual"visual_occipital_N100visual_occipital_N100 is an occipital negativity that is maximal at about 140-220 ms after onset of a visual stimulus.posterotemporal_N2c-.42002802009-06-072011-08-13Frishkoff, G. A., Perfetti, C. A., Westbury, C. (2009). ERP measures of partial semantic knowledge: Left temporal indices of skill differences and lexical quality. Biological Psychology, 80, 130-147.N2cNEMO_erpThe posterotemporal_N2c is_a scalp-recorded_ERP_extracted_pattern
and has_proper_part SOME peak_latency_measurement_datum
that has_numeric_value SOME decimal[>="200", <="280"]
and has_proper_part SOME intensity_measurement_datum
that has_numeric_value SOME decimal[<="-0.4"]
that is_quality_measurement_of SOME intensity
that inheres_in SOME scalp_recorded_ERP
that unfolds_in SOME frontotemporal_scalp_surface_region
and proper_part_of SOME averaged_EEG_data_set
that has_provenance_specification SOME event_type_label
that has_character_string_value SOME "stimulus_onset"
and has_provenance_specification SOME stimulus_type_label
that has_character_string_value SOME "object"posterotemporal_N2cposterotemporal_N2c is a negativity that is maximal over posterotemporal scalp regions at about 150-250 ms after onset of a stimulus.frontotemporal_N3-.42503502009-06-072011-06-08Frishkoff, G. A., (2007). Hemispheric differences in strong versus weak semantic priming: Evidence from event-related brain potentials. Brain and Language, 100, 23-47.N3N300N330NEMO_erpNobre, A. C., & McCarthy, G. (1994). Language-Related ERPs: Scalp Distributions and Modulation of Word Type and Semantic Priming. Journal of Cognitive Neuroscience, 6(3), 233–255.The frontotemporal_N3 is_a scalp-recorded_ERP_extracted_pattern
and has_proper_part SOME peak_latency_measurement_datum
that has_numeric_value SOME decimal[>="250", <="350"]
and has_proper_part SOME intensity_measurement_datum
that has_numeric_value SOME decimal[<="-0.4"]
that is_quality_measurement_of SOME intensity
that inheres_in SOME scalp_recorded_ERP
that unfolds_in SOME frontotemporal_scalp_surface_region
and proper_part_of SOME averaged_EEG_data_set
that has_provenance_specification SOME event_type_label
that has_character_string_value SOME "stimulus_onset"
and has_provenance_specification SOME stimulus_type_label
that has_character_string_value SOME "object"frontotemporal_N3frontotemporal_N3 is a frontotemporal negativity that is maximal at about 250-350 ms after onset of a stimulus. It is typically larger over the left side of the scalp for word stimuli.medial_frontal_negativity-.43005002009-06-072011-06-08Frishkoff, G. A., Perfetti, C. A., Westbury, C. (2009). ERP measures of partial semantic knowledge: Left temporal indices of skill differences and lexical quality. Biological Psychology, 80, 130-147., Frishkoff, G. A. (2007: p. 30-31). MFNMFNNEMO_erpThe medial_frontal_negativity is_a scalp-recorded_ERP_extracted_pattern
and has_proper_part SOME peak_latency_measurement_datum
that has_numeric_value SOME decimal[>="300", <="500"]
and has_proper_part SOME intensity_measurement_datum
that has_numeric_value SOME decimal[<="-0.4"]
that is_quality_measurement_of SOME intensity
that inheres_in SOME scalp_recorded_ERP
that unfolds_in SOME frontocentral_scalp_surface_region
and proper_part_of SOME averaged_EEG_data_set
that has_provenance_specification SOME event_type_label
that has_character_string_value SOME "stimulus_onset"
and has_provenance_specification SOME stimulus_type_label
that has_character_string_value SOME "object"medial_frontal_negativitymedial_frontal_negativity is a negativity that is maximal over the frontocentral scalp region between about 250-450 ms after onset of a stimulus and is more negative for stimuli that are unexpected and/or more difficult to process.parietal_N400-.43005002009-06-072011-06-08Kutas, M., & Federmeier, K. D. (2000). Electrophysiology reveals semantic memory use in language comprehension. Trends Cogn Sci, 4(12), 463-470; Kutas, M., & Hillyard, S. A. (1980). Reading senseless sentences: Brain potentials reflect semantic incongruity. Science, 207, 203-205.N4N400NEMO_erpThe parietal_N400 is_a scalp-recorded_ERP_extracted_pattern
and has_proper_part SOME peak_latency_measurement_datum
that has_numeric_value SOME decimal[>="300", <="500"]
and has_proper_part SOME intensity_measurement_datum
that has_numeric_value SOME decimal[<="-0.4"]
that is_quality_measurement_of SOME intensity
that inheres_in SOME scalp_recorded_ERP
that unfolds_in SOME parietal_scalp_surface_region
and proper_part_of SOME averaged_EEG_data_set
that has_provenance_specification SOME event_type_label
that has_character_string_value SOME "stimulus_onset"
and has_provenance_specification SOME stimulus_type_label
that has_character_string_value SOME "linguistic_object"parietal_N400visual_word_parietal_N400 is a negativity that is maximal over temporal and parietal scalp regions at about 300-500 ms after onset of a meaningful stimulus (typically, a word) and is more negativite when the stimulus is semantically unexpected or hard to integrate with the preceding context. It is often (but not always) slightly larger over the right side of the scalp.parietal_P3b.44007002009-06-072011-06-08Connolly, J. F., D'Arcy, R. C. N., Newman, R. L., and Kemps, R. (2000). The application of cognitive event-related brain potentials (ERPs) in language-impaired individuals: review and case studies. International Journal of Psychophysiology, 38, 55-70.Dien, J., Spencer, K. M., and Donchin, E. (2004). Parsing the late positive complex: Mental chronometry and the ERP components that inhabit the neighborhood of the P300. Psychophysiology, 41, 665-678.NEMO_erpP3P300P3bSutton, S., Tueting, P., Zubin, J., & John, E. R. (1965). Evoked potential correlates of stimulus uncertainty. Science, 150, 1187–1188.The parietal_P3b is_a scalp-recorded_ERP_extracted_pattern
and has_proper_part SOME peak_latency_measurement_datum
that has_numeric_value SOME decimal[>="400", <="700"]
and has_proper_part SOME intensity_measurement_datum
that has_numeric_value SOME decimal[>="0.4"]
that is_quality_measurement_of SOME intensity
that inheres_in SOME scalp_recorded_ERP
that unfolds_in SOME parietal_scalp_surface_region
and proper_part_of SOME averaged_EEG_data_set
that has_provenance_specification SOME event_type_label
that has_character_string_value SOME "stimulus_onset"
and has_provenance_specification SOME stimulus_type_label
that has_character_string_value SOME "object"oddball P3oddball P300parietal_P3bparietal_P3b is a positivity that is maximal over parietal scalp regions at about 400-700 ms after onset of a stimulus. It is larger (more positive) for stimuli that are attended (vs. ignored).principal_components_analysis_algorithm2009-06-062010-07-23A principal_components_algorithm is an algorithm that is realized through implementation of (code)....A principal_components_algorithm is an algorithm that is used to explain the variance in a complex data set (e.g., superposed spatial and/or temporal patterns) as a combination of latent factors or "components".Curator.Dien & Frishkoff. Introduction to Principal Components Analysis of Event-Related Potentials. In Handy (Ed.), In T. Handy (Ed.), Event-Related Potentials: A Methods Handbook (2005). Cambridge, MA: MIT Press. pp. 137-153NEMO_dataPCAprincipal_components_analysis_algorithmindependent_components_analysis_algorithm2009-06-062010-07-23A independent_components_algorithm is an algorithm that is realized through implementation of (code)....An independent_components_algorithm is an algorithm that is used to decompose a complex data set into latent factors or "components" in a way that maximizes the non-gaussianity of the component distributions.Curator.Frank, R.M & Frishkoff, G.A. (2007). Automated protocol for evaluation of electromagnetic component separation (APECS) : Application of a framework for evaluating statistical methods of blink extraction from multichannel EEG. Clinical Neurophysiology, 118(1), pp. 80-97.ICAICANEMO_dataindependent_components_analysis_algorithmspatial_independent_components_analysis_algorithm2009-06-062010-05-23A spatial_independent_components_algorithm is an algorithm that is realized through implementation of (code)....A spatial_independent_components_algorithm is an algorithm that is used to explain spatial variance in a data set as a combination of latent spatial patterns (aka "factors" or "components").Add note about use of "spatial" vs. "temporal"...Curator.Frank, R.M & Frishkoff, G.A. (2007). Automated protocol for evaluation of electromagnetic component separation (APECS) : Application of a framework for evaluating statistical methods of blink extraction from multichannel EEG. Clinical Neurophysiology, 118(1), pp. 80-97.NEMO_datasICAspatial ICAspatial_independent_components_analysis_algorithmtemporal_independent_components_analysis_algorithm2009-06-062010-07-23A temporal_independent_components_algorithm is an algorithm that is realized through implementation of (code)....A temporal_independent_components_algorithm is an algorithm that is used to decompose a complex data set into latent temporal factors or "components" in a way that maximizes the non-gaussianity of the component distributions.Add note about use of "spatial" vs. "temporal"...Curator.Frank, R.M & Frishkoff, G.A. (2007). Automated protocol for evaluation of electromagnetic component separation (APECS) : Application of a framework for evaluating statistical methods of blink extraction from multichannel EEG. Clinical Neurophysiology, 118(1), pp. 80-97.NEMO_datatICAtemporal ICAtemporal_independent_components_analysis_algorithmtemporal_principal_components_analysis_algorithm2009-06-062010-07-23A temporal_principal_components_algorithm is an algorithm that is realized through implementation of (code)....A temporal_principal_components_algorithm is an algorithm that is used to explain temporal variance in a data set as a combination of latent temporal patterns (aka "factors" or "components").Curator.Dien & Frishkoff. Introduction to Principal Components Analysis of Event-Related Potentials. In Handy (Ed.), In T. Handy (Ed.), Event-Related Potentials: A Methods Handbook (2005). Cambridge, MA: MIT Press. pp. 137-153NEMO_datatPCAtemporal PCAtemporal_principal_components_analysis_algorithmspatial_principal_components_analysis_algorithm2009-06-062010-07-23A spatial_principal_components_algorithm is an algorithm that is realized through implementation of (code)....A spatial_principal_components_algorithm is an algorithm that is used to explain spatial variance in a data set as a combination of latent spatial patterns (aka "factors" or "components").Dien & Frishkoff. Introduction to Principal Components Analysis of Event-Related Potentials. In Handy (Ed.), In T. Handy (Ed.), Event-Related Potentials: A Methods Handbook (2005). Cambridge, MA: MIT Press. pp. 137-153NEMO_datasPCAspatial PCAspatial_principal_components_analysis_algorithmbiomaterial_entity2009-05-072012-05-08A biomaterial_entity is an entity...(incomplete)An entity constituting a biological organism either in whole or in part, or one derived from a biological organism.Curator.Note that biomaterial_object has been deprecated (retired) in NIFSTD (GF -- 2010-04-14)Source of textDefinition is http://ontology.neuinfo.org/NIF/Backend/BIRNLex-OBO-UBO.owl#birnlex_5body2009-05-072010-04-13NEMO_spatialThe body is an anatomical_object...(incomplete)The entire material or physical structure of an organism, especially of a human or animal.bodyhttp://www.thefreedictionary.com/bodyontoDefinition source is http://ontology.neuinfo.org/NIF/Backend/BIRNLex-OBO-UBO.owl#birnlex_6head2009-05-072010-07-22LINK TO FMA, NEUROLEX ANATOMICAL ONTOLOGIES.NEMO_spatialSource of ontoDefinition is http://ontology.neuinfo.org/NIF/BiomaterialEntities/NIF-GrossAnatomy.owl#birnlex_1230The head is an anatomical_object that is a proper_part_of some body.The uppermost or forwardmost part of the body of a vertebrate, containing the brain and the eyes, ears, nose, mouth, and jaws.headhttp://www.thefreedictionary.com/Headscalp2009-05-072010-07-21NEMO_spatialNote that the scalp is defined in NEMO_spatial is a three-dimensional object, not to be confused with the two-dimensional scalp_surface.The scalp is an anatomical region of the head that is bordered by the face anteriorly and the neck to the sides and posteriorly. It consists of 5 layers, including (S) the outer layer, or skin, on which the hair grows, (C) connective tissue that lies just beneath the outer layer, (A) an aponeurosis called epicranial aponeurosis or galea aponeurotica, a tough layer of dense fibrous tissue which runs from the frontalis muscle anteriorly to the occipitalis posteriorly, (L) the loose areolar connective tissue layer, which constitutes an easy plane of separation between the upper three layers and the pericranium, and (P) the pericranium, or periosteum of the skull bones.The scalp is an anatomical_object that is a proper_part_of some head.http://en.wikipedia.org/wiki/Scalpscalpspatial_anatomical_quality2009-06-072009-08-06Curator.NEMO_spatialspatial_anatomical_qualityspatial_anatomical_quality is a spatial property of an entity that is located in an anatomically defined spatial region.spatial_anatomical_quality is...caudality2009-06-072010-07-22NEMO_spatialSpatial concepts in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.caudalitycaudality is a spatial quality that locates an object with respect to the front of the head (nasion or nose) and the back of the head (inion and occipital notch).caudality is a spatial_anatomical_quality that is disjoint with laterality and superiority.caudality is disjoint with laterality and superiority.http://www.medterms.com/script/main/art.asp?articlekey=22580temporal_quality...[incomplete]2009-06-062010-08-02NEMO_temporaltemporal_qualitytemporal_quality is a quality that inheres in an entity that is temporally extended (i.e., an occurrent).temporal_quality is a quality that...event_related_temporal_quality...[incomplete]2009-06-062009-08-02NEMO_temporalevent_related_temporal_qualityevent_related_temporal_quality is a quality thatevent_related_temporal_quality is a quality that inheres in an entity that is temporally extended (i.e., an occurrent), where the "life" of the entity begins with an event_boundary (e.g., onset or offset or peak of a stimulus event)laterality2009-06-072010-07-22NEMO_spatialSpatial concepts in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.http://www.medterms.com/script/main/art.asp?articlekey=6226lateralitylaterality is a spatial_anatomical_quality that is disjoint with caudality and superiority.laterality is disjoint with caudality and superiority.laterality is quality of being located more or less close to the sides of the head (left and right ears) versus the center of the head (vertex).lateralizationsuperiority2009-06-072010-07-22NEMO_spatialSpatial concepts in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.http://medicaldictionary.thefreedictionary.com/superiorsuperioritysuperiority is a spatial quality that locates an object with respect to the top of the head (vertex) and the bottom of the head (neck).superiority is a spatial_anatomical_quality that is disjoint with caudality and laterality.superiority is disjoint with caudality and lateralitycaudal2009-06-072010-07-22NEMO_spatialSpatial concepts in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.caudalcaudal is a spatial_anatomical_quality that is disjoint with rostral and central.caudal is disjoint with rostral and central.caudal is the quality of being located closer to the back of the head (inion or occipital notch) than to the front of the head (nasion or nose).http://www.medterms.com/script/main/art.asp?articlekey=22580posteriorcentral2009-06-072010-07-22Curator.NEMO_spatialSpatial concepts in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.centralcentral is a spatial_anatomical_quality that is disjoint with rostral and caudal.central is disjoint with rostral and caudal.central is the quality being located approximately equidistant to the front of the head (nasion or nose) and to the back of the head (inion or occipital notch).rostral2009-06-072010-07-22NEMO_spatialSpatial concepts in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.anteriorfrontalhttp://medical-dictionary.thefreedictionary.com/rostralrostralrostral is a spatial_anatomical_quality that is disjoint with caudal and central.rostral is disjoint with caudal and central.rostral is the quality of being located closer to the front of the head (nasion or nose) than to the back of the head (inion or occipital notch).left2009-06-072010-07-22NEMO_spatialSpatial concepts in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.http://www.medterms.com/script/main/art.asp?articlekey=6226leftleft is a spatial_anatomical_quality that is disjoint with right and medial.left is disjoint with right and medial.left is the quality of being closer to the left side of the head (left ear) than to the center of the head (vertex).medial2009-06-072010-07-22NEMO_spatialSpatial concepts in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.http://www.upstate.edu/cdb/grossanat/glossary.shtmlmedialmedial is a spatial_anatomical_quality that is disjoint with left and right.medial is disjoint with left and right.medial is the quality being located approximately equidistant to the right and to the left side of the head.midlineright2009-06-072010-07-22NEMO_spatialSpatial concepts in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.http://www.medterms.com/script/main/art.asp?articlekey=6226rightright is a spatial_anatomical_quality that is disjoint with left and medial.right is disjoint with left and medial.right is the quality of being closer to the right side of the head (right ear) than to the left side of the head (left ear).inferior2009-06-072010-07-22Inferior is the quality of being located closer to the bottom of the head (neck) than to the top of the head (vertex).NEMO_spatialSpatial concepts in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.http://quizlet.com/360205/anatomical-terminology-relative-position-flash-cards/inferiorinferior is a spatial_anatomical_quality that is disjoint with superior and middle.inferior is disjoint with superior and middle.ventralsuperior2009-06-072010-07-22NEMO_spatialSpatial concepts in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.dorsalhttp://medical-dictionary.thefreedictionary.com/superiorsuperiorsuperior is a spatial_anatomical_quality that is disjoint with inferior and middle.superior is disjoint with inferior and middle.superior is the quality of being located closer to the top of the head (vertex) than to the bottom of the head (neck).anatomical_region2009-06-072011-04-22An anatomical_region is a 3-dimensional region occupied (and by implication, shaped) by an anatomical object.An anatomical_region is a three_dimensional_region that is the exact location_of some anatomical_object.Curator.LINK TO FMA, NEUROLEX ANATOMICAL ONTOLOGIESNEMO_spatialanatomical_regionhttp://purl.org/obo/owl/BSPO#BSPO_0000070brain_region2009-06-072011-04-22A brain_region is 3-dimensional anatomical region occupied (and by implication shaped) by the brain or a part of the brain.A brain_region is an anatomical_region that is the location_of the brain.Brain regionBrain region (body structure)Curator.LINK TO FMA, NEUROLEX ANATOMICAL ONTOLOGIES.NEMO_spatialUMLS CUI C1273723brain_regionhttp://ihtsdo.org/snomedct/anatomy#384763002ERP_scalp_topography2009-06-072009-07-22ERP_scalp_distributionERP_scalp_locationERP_scalp_topographyERP_scalp_topography is the pattern or distribution of positive (source) and negative (sink) electrical potentials over a scalp_surface_region. It has a strength (amplitude, measured in microvolts), which can vary over time.ERP_scalp_topography is...[incomplete]NEMO_spatiallink to scalp_regionERP_source_topography2009-06-072009-08-06ERP_source_distributionERP_source_locationERP_source_topographyERP_source_topography is the pattern or distribution of positive (source) and negative (sink) electrical potentials over a brain_region. It has a strength (amplitude, measured in microvolts), which can vary over time.ERP_source_topography is...[incomplete]NEMO_spatiallink to brain_regionITT_AF7_location2009-05-072011-04-28ITT_AF7 is an ITT_electrode_location that is a proper_part_of some left_frontotemporal_scalp_surface_region and is disjoint with ITT_F5, ITT_F7, ITT_F9, ITT_FC5, ITT_FT7, ITT_FT9 and ITT_T9.ITT_AF7_locationInternational 10-10 channel AF7 (ITT_AF7) is a standard location on the scalp surface that is located in the left frontotemporal_scalp_surface_region. It is rostral to ITT_F5 and right_of ITT_F9.NEMO_spatialITT_F5_location2009-05-072011-04-28ITT_F5 is an ITT_electrode_location that is a proper_part_of some left_frontotemporal_scalp_surface_region and is disjoint with ITT_AF7, ITT_F7, ITT_F9, ITT_FC5, ITT_FT7, ITT_FT9 and ITT_T9.ITT_F5_locationInternational 10-10 channel F5 (ITT_F5) is standard location on the scalp surface that is located in the left_frontotemporal_scalp_surface_region. It is rostral to ITT_FC5 and right_of ITT_F7.NEMO_spatialITT_F7_location2009-05-072011-04-28ITT_F7 is an ITT_electrode_location that is a proper_part_of some left_frontotemporal_scalp_surface_region and is disjoint with ITT_AF7, ITT_F5, ITT_F9, ITT_FC5, ITT_FT7, ITT_FT9 and ITT_T9.ITT_F7_locationInternational 10-10 channel F7 (ITT_F7) is standard location on the scalp surface that is located in the left_frontotemporal_scalp_surface_region. It is rostral to ITT_FC5, right_of ITT_F9 and left_of ITT_F5.NEMO_spatialITT_F9_location2009-05-072011-04-28ITT_F9 is an ITT_electrode_location that is a proper_part_of some left_frontotemporal_scalp_surface_region and is disjoint with ITT_AF7, ITT_F5, ITT_F7, ITT_FC5, ITT_FT7, ITT_FT9 and ITT_T9.ITT_F9_locationInternational 10-10 channel F9 (ITT_F9) is a standard location on the scalp surface that is located in the left_frontotemporal_scalp_surface_region. It is rostral to ITT_FT9 and left_of ITT_F7.NEMO_spatialITT_FC5_location2009-05-072011-04-28ITT_FC5 is an ITT_electrode_location that is a proper_part_of some left_frontotemporal_scalp_surface_region and is disjoint with ITT_AF7, ITT_F5, ITT_F7, ITT_F9, ITT_FT7, ITT_FT9 and ITT_T9.ITT_FC5_locationInternational 10-10 channel FC5 (ITT_FC5) is is a standard location on the scalp surface that is located in the left_frontotemporal_scalp_surface_region. It is caudal to ITT_F5 and right_of ITT_FT7.NEMO_spatialITT_FT7_location2009-05-072011-04-28ITT_FT7 is an ITT_electrode_location that is a proper_part_of some left_frontotemporal_scalp_surface_region and is disjoint with ITT_AF7, ITT_F5, ITT_F7, ITT_F9, ITT_FC5, ITT_FT9 and ITT_T9.ITT_FT7_locationInternational 10-10 channel FT7 (ITT_FT7) is a standard location on the scalp surface that is located in the left_frontotemporal_scalp_surface_region. It is caudal to ITT_F5, left_of ITT_FC5, and right_of ITT_FT9.NEMO_spatialITT_FT9_location2009-05-072011-04-28ITT_FT9 is an ITT_electrode_location that is a proper_part_of some left_frontotemporal_scalp_surface_region and is disjoint with ITT_AF7, ITT_F5, ITT_F7, ITT_F9, ITT_FC5, ITT_FT7 and ITT_T9.ITT_FT9_locationInternational 10-10 channel FT9 (ITT_FT9) is a standard location on the scalp surface that is located in the left_frontotemporal_scalp_surface_region. It is caudal to ITT_F9, rostral to ITT_T9, and left_of ITT_FT7.NEMO_spatialITT_T9_location2009-05-072011-04-28ITT_T9 is an ITT_electrode_location that is a proper_part_of some left_frontotemporal_scalp_surface_region and is disjoint with ITT_AF7, ITT_F5, ITT_F7, ITT_F9, ITT_FC5, ITT_FT7 and ITT_FT9.ITT_T9_locationInternational 10-10 channel T9 (ITT_T9) is a standard location on the scalp surface that is located in the left_frontotemporal_scalp_surface_region. It is caudal to ITT_TF7 and left_of ITT_FT7.NEMO_spatialITT_AF8_location2009-05-072011-04-28ITT_AF8 is an ITT_electrode_location that is a proper_part_of some right_frontotemporal_scalp_surface_region and is disjoint with ITT_F10, ITT_F6, ITT_F8, ITT_FC6, ITT_FT8, ITT_FT10, ITT_T10.ITT_AF8_locationInternational 10-10 channel AF8 (ITT_AF8) is a standard location on the scalp surface that is located in the right_frontotemporal_scalp_surface_region. It is rostral to ITT_F8 and left_of ITT_F10.NEMO_spatialITT_F10_location2009-05-072011-04-28ITT_F10 is an ITT_electrode_location that is a proper_part_of some right_frontotemporal_scalp_surface_region and is disjoint with ITT_AF8, ITT_F6, ITT_F8, ITT_FC6, ITT_FT8, ITT_FT10, ITT_T10.ITT_F10_locationInternational 10-10 channel F10 (ITT_F10) is a standard location on the scalp surface that is located in the right_frontotemporal_scalp_surface_region. It is rostral to ITT_FT10 and right_of ITT_F8.NEMO_spatialITT_F6_location2009-05-072011-04-28ITT_F6 is an ITT_electrode_location that is a proper_part_of some right_frontotemporal_scalp_surface_region and is disjoint with ITT_AF8, ITT_F10, ITT_F8, ITT_FC6, ITT_FT8, ITT_FT10, ITT_T10.ITT_F6_locationInternational 10-10 channel F6 (ITT_F6) is a standard location on the scalp surface that is located in the right_frontotemporal_scalp_surface_region. It is rostral to ITT_FC6, right_of ITT_F4, and left_of ITT_F8.NEMO_spatialITT_F8_location2009-05-072011-04-28ITT_F8 is an ITT_electrode_location that is a proper_part_of some right_frontotemporal_scalp_surface_region and is disjoint with ITT_AF8, ITT_F10, ITT_F6, ITT_FC6, ITT_FT8, ITT_FT10, ITT_T10.ITT_F8_locationInternational 10-10 channel F8 (ITT_F8) is a standard location on the scalp surface that is located in the right_frontotemporal_scalp_surface_region. It is caudal to ITT_AF8, rostral to ITT_FT8, right_of ITT_F6, and left_of ITT_F10.NEMO_spatialITT_FC6_location2009-05-072011-04-28ITT_FC6 is an ITT_electrode_location that is a proper_part_of some right_frontotemporal_scalp_surface_region and is disjoint with ITT_AF8, ITT_F10, ITT_F6, ITT_F8, ITT_FT8, ITT_FT10, ITT_T10.ITT_FC6_locationInternational 10-10 channel FC6 (ITT_FC6) is a standard location on the scalp surface that is located in the right_frontotemporal_scalp_surface_region. It is caudal to ITT_F6 and left_of ITT_FT8.NEMO_spatialITT_FT8_location2009-05-072011-04-28ITT_FT8 is an ITT_electrode_location that is a proper_part_of some right_frontotemporal_scalp_surface_region and is disjoint with ITT_AF8, ITT_F10, ITT_F6, ITT_F8, ITT_FC6, ITT_FT10, ITT_T10.ITT_FT8_locationInternational 10-10 channel FT8 (ITT_FT8) is a standard location on the scalp surface that is located in the right_frontotemporal_scalp_surface)_region. It is caudal to ITT_F8, right_of ITT_FC6, and left_of ITT_FT10.NEMO_spatialITT_FT10_location2009-05-072011-04-28ITT_FT10 is an ITT_electrode_location that is a proper_part_of some right_frontotemporal_scalp_surface_region and is disjoint with ITT_AF8, ITT_F10, ITT_F6, ITT_F8, ITT_FC6, ITT_FT8, ITT_T10.ITT_FT10_locationInternational 10-10 channel FT10 (ITT_FT10) is a standard location on the scalp surface that is located in the right_frontotemporal_scalp_surface_region. It is caudal_to ITT_F10, rostral to ITT_T10 and right_of ITT_FT8.NEMO_spatialITT_T10_location2009-05-072011-04-28ITT_T10 is an ITT_electrode_location that is a proper_part_of some right_frontotemporal_scalp_surface_region and is disjoint with ITT_AF8, ITT_F10, ITT_F6, ITT_F8, ITT_FC6, ITT_FT8, ITT_FT10.ITT_T10_locationInternational 10-10 channel T10 (ITT_T10) is a standard location on the scalp surface that is located in the right_frontotemporal_scalp_surface_region. It is caudal_to ITT_FT10 and right_of ITT_FT8.NEMO_spatialITT_F1_location2009-05-072011-04-28ITT_F1 is an ITT_electrode_location that is a proper_part_of some left_frontocentral_scalp_surface_region and is disjoint with ITT_F3, ITT_FC1, ITT_FC3.ITT_F1_locationInternational 10-10 channel F1 (ITT_F1) is a standard location on the scalp surface that is located in the left_frontocentral_scalp_surface_region. It is rostral_to ITT_FC1 and right_of ITT_F3.NEMO_spatialITT_F3_location2009-05-072011-04-28ITT_F3 is an ITT_electrode_location that is a proper_part_of some left_frontocentral_scalp_surface_region and is disjoint with ITT_F1, ITT_FC1, ITT_FC3.ITT_F3_locationInternational 10-10 channel F3 (ITT_F3) is a standard location on the scalp surface that is located in the left_frontocentral_scalp_surface_region. It is rostral_to ITT_FC3 and left_of ITT_F1.NEMO_spatialITT_FC1_location2009-05-072011-04-28ITT_FC1 is an ITT_electrode_location that is a proper_part_of some left_frontocentral_scalp_surface_region and is disjoint with ITT_F1, ITT_F3, ITT_FC3.ITT_FC1_locationInternational 10-10 channel FC1 (ITT_FC1) is a standard location on the scalp surface that is located in the left_frontocentral_scalp_surface_region. It is caudal_to ITT_F1 and right_of ITT_FC3.NEMO_spatialITT_FC3_location2009-05-072011-04-28ITT_FC3 is an ITT_electrode_location that is a proper_part_of some left_frontocentral_scalp_surface_region and is disjoint with ITT_F1, ITT_F3, ITT_FC1.ITT_FC3_locationInternational 10-10 channel FC3 (ITT_FC3) is a standard location on the scalp surface that is located in the left_frontocentral_scalp_surface_region. It is caudal_to ITT_F3 and left_of ITT_FC1.NEMO_spatialITT_Afz_location2009-05-072011-04-28ITT_Afz is an ITT_electrode_location that is a proper_part_of some medial_frontocentral_scalp_surface_region and is disjoint with ITT_Fcz, ITT_Fz.ITT_Afz_locationInternational 10-10 channel AFz (ITT_Afz) is a standard location on the scalp surface that is located in the medial_frontocentral_scalp_surface_region. It is rostral_to ITT_Fz.NEMO_spatialITT_Fcz_location2009-05-072011-04-28ITT_Fcz is an ITT_electrode_location that is a proper_part_of some medial_frontocentral_scalp_surface_region and is disjoint with ITT_Afz, ITT_Fz.ITT_Fcz_locationInternational 10-10 channel FCz (ITT_FCz) is a standard location on the scalp surface that is located in the medial_frontocentral_scalp_surface_region. It is caudal_to ITT_Fz.NEMO_spatialITT_Fz_location2009-05-072011-04-28ITT_Fz is an ITT_electrode_location that is a proper_part_of some medial_frontocentral_scalp_surface_region and is disjoint with ITT_Afz, ITT_Fcz.ITT_Fz_locationInternational 10-10 channel Fz (ITT_Fz) is a standard location on the scalp surface that is located in the medial_frontocentral_scalp_surface_region. It is rostral_to ITT_FCz and caudal_to ITT_AFz.NEMO_spatialITT_F2_location2009-05-072011-04-28ITT_F2_locationITT_F2_location is an ITT_electrode_location that is a proper_part_of some right_frontocentral_scalp_surface_region and is disjoint with ITT_F4, ITT_FC2, ITT_FC4.International 10-10 channel F2 (ITT_F2) is a standard location on the scalp surface that is located in the right_frontocentral_scalp_surface_region. It is rostral_to ITT_FC2 and left_of ITT_F4.NEMO_spatialITT_F4_location2009-05-072011-04-28ITT_F4_locationITT_F4_location is an ITT_electrode_location that is a proper_part_of some right_frontocentral_scalp_surface_region and is disjoint with ITT_F2, ITT_FC2, ITT_FC4.International 10-10 channel F4 (ITT_F4) is a standard location on the scalp surface that is located in the right_frontocentral_scalp_surface_region. It is caudal_to ITT_F2 and right_of ITT_F2.NEMO_spatialITT_FC2_location2009-05-072011-04-28ITT_FC2_locationITT_FC2_location is an ITT_electrode_location that is a proper_part_of some right_frontocentral_scalp_surface_region and is disjoint with ITT_F2, ITT_F4, ITT_FC4.International 10-10 channel FC2 (ITT_FC2) is a standard location on the scalp surface that is located in the right_frontocentral_scalp_surface_region. It is caudal_to ITT_F2 and left_of ITT_FC4.NEMO_spatialITT_FC4_location2009-05-072011-04-28ITT_FC4_locationITT_FC4_location is an ITT_electrode_location that is a proper_part_of some right_frontocentral_scalp_surface_region and is disjoint with ITT_F2, ITT_F4, ITT_FC2.International 10-10 channel FC4 (ITT_FC4) is a standard location on the scalp surface that is located in the right_frontocentral_scalp_surface_region. It is caudal_to ITT_FC2 and right_of ITT_FC2.NEMO_spatialITT_O1_location2009-05-072011-04-28Curator.ITT_O1_locationITT_O1_location is an ITT_electrode_location that is a proper_part_of some left_occipital_scalp_surface_region and is disjoint with ITT_PO1, ITT_PO3, ITT_PO5.International 10-10 channel O1 (ITT_O1) is located in the left_occipital_scalp_surface_region. It is caudal_to ITT_PO1 and right_of ITT_PO5.NEMO_spatialITT_PO1_location2009-05-072011-04-28Curator.ITT_PO1_locationITT_PO1_location is an ITT_electrode_location that is a proper_part_of some left_occipital_scalp_surface_region and is disjoint with ITT_O1, ITT_PO3, ITT_PO5.International 10-10 channel PO1 (ITT_PO1) is a standard location on the scalp surface that is located in the left_occipital_scalp_surface_region. It is rostral_to ITT_O1 and right_of ITT_PO3.NEMO_spatialITT_PO3_location2009-05-072011-04-28Curator.ITT_PO3_locationITT_PO3_location is an ITT_electrode_location that is a proper_part_of some left_occipital_scalp_surface_region and is disjoint with ITT_O1, ITT_PO1, ITT_PO5.International 10-10 channel PO3 (ITT_PO3) is a standard location on the scalp surface that is located in the left_occipital_scalp_surface_region. It is rostral_to ITT_O1, right_of ITT_PO5, and left_of ITT_PO1.NEMO_spatialITT_PO5_location2009-05-072011-04-28Curator.ITT_PO5_locationITT_PO5_location is an ITT_electrode_location that is a proper_part_of some left_occipital_scalp_surface_region and is disjoint with ITT_O1, ITT_PO1, ITT_PO3.International 10-10 channel PO5 (ITT_PO5) is located in the left_occipital_scalp_surface_region. It is rostral_to ITT_O1 and left_of ITT_PO3.NEMO_spatialITT_Oz_location2009-05-072011-04-28Curator.ITT_Oz_locationITT_Oz_location is an ITT_electrode_location that is a proper_part_of some medial_occipital_scalp_surface_region.International 10-10 channel Oz (ITT_Oz) is a standard location on the scalp surface that is located in the medial_occipital_scalp_surface_region. It is the only channel_location within this region.NEMO_spatialITT_AF1_location2009-05-072011-04-28Curator.ITT_AF1_locationITT_AF1_location is an ITT_electrode_location that is a proper_part_of some left_frontopolar_scalp_surface_region and is disjoint with ITT_AF3, ITT_AF5, ITT_FP1, ITT_LVEOG.International 10-10 channel AF1 (ITT_AF1) is a standard location on the scalp surface that is located in the left_frontopolar_scalp_surface_region. It is caudal_to ITT_FP1 and left_of ITT_AF3.NEMO_spatialITT_AF3_location2009-05-072011-04-28Curator.ITT_AF3_locationITT_AF3_location is an ITT_electrode_location that is a proper_part_of some left_frontopolar_scalp_surface_region and is disjoint with ITT_AF1, ITT_AF5, ITT_FP1, ITT_LVEOG.International 10-10 channel AF3 (ITT_AF3) is a standard location on the scalp surface that is located in the left_frontopolar_scalp_region. It is caudal_to ITT_FP1, right_of ITT_AF5 and left_of ITT_AF1.NEMO_spatialITT_AF5_location2009-05-072011-04-28Curator.ITT_AF5_locationITT_AF5_location is an ITT_electrode_location that is a proper_part_of some left_frontopolar_scalp_surface_region and is disjoint with ITT_AF1, ITT_AF3, ITT_FP1, ITT_LVEOG.International 10-10 channel AF5 (ITT_AF5) is a standard location on the scalp surface that is located in the left_frontopolar_scalp_surface_region. It is right_of ITT_AF3 and caudal_to ITT_FP1.NEMO_spatialITT_FP1_location2009-05-072011-04-28Curator.ITT_FP1_locationITT_FP1_location is an ITT_electrode_location that is a proper_part_of some left_frontopolar_scalp_surface_region and is disjoint with ITT_AF1, ITT_AF3, ITT_AF5, ITT_LVEOG.International 10-10 channel FP1 (ITT_FP1) is a standard location on the scalp surface that is located in the left_frontopolar_scalp_surface_region. It is rostral_to ITT_AF1 and left_of ITT_AF3.NEMO_spatialITT_LVEOG_location2009-05-072011-04-28Curator.ITT_LVEOG_locationITT_LVEOG_location is an ITT_electrode_location that is a proper_part_of some left_frontopolar_scalp_surface_region and is disjoint with ITT_AF1, ITT_AF3, ITT_AF5, ITT_FP1.International 10-10 channel LVEOG (ITT_LVEOG) is a standard location on the scalp surface that is located in the left_frontopolar_scalp_surface_region. It is rostral_to ITT_FP1.NEMO_spatialITT_Fpz_location2009-05-072011-04-28Curator.ITT_Fpz_locationITT_Fpz_location is an ITT_electrode_location that is a proper_part_of some medial_frontopolar_scalp_surface_region.International 10-10 channel FPz (ITT_FPz) is a standard location on the scalp surface that is located in the medial_frontopolar_scalp_surface_region. It is the only ITT channel location within this region.NEMO_spatialITT_AF2_location2009-05-072011-04-28Curator.ITT_AF2_locationITT_AF2_location is an ITT_electrode_location that is a proper_part_of some right_frontopolar_scalp_surface_region and is disjoint with ITT_AF4, ITT_AF6, ITT_FP2, ITT_RVEOG.International 10-10 channel AF2 (ITT_AF2) is a standard location on the scalp surface that is located in the right_frontopolar_scalp_surface_region. It is caudal_to ITT_FP2 and right_of ITT_AF4.NEMO_spatialITT_AF4_location2009-05-072011-04-28Curator.ITT_AF4_locationITT_AF4_location is an ITT_electrode_location that is a proper_part_of some right_frontopolar_scalp_surface_region and is disjoint with ITT_AF2, ITT_AF6, ITT_FP2, ITT_RVEOG.International 10-10 channel AF4 (ITT_AF4) is a standard location on the scalp surface that is located in the right_frontopolar_scalp_surface_region. It is caudal_to ITT_FP2, left_of ITT_AF6 and right_of ITT_AF2.NEMO_spatialITT_AF6_location2009-05-072011-04-28Curator.ITT_AF6_locationITT_AF6_location is an ITT_electrode_location that is a proper_part_of some right_frontopolar_scalp_surface_region and is disjoint with ITT_AF2, ITT_AF4, ITT_FP2, ITT_RVEOG.International 10-10 channel AF6 (ITT_AF6) is a standard location on the scalp surface that is located in the right_frontopolar_scalp_surface_region. It is caudal_to ITT_FP2 and right_of ITT_AF4.NEMO_spatialITT_FP2_location2009-05-072011-04-28Curator.ITT_FP2_locationITT_FP2_location is an ITT_electrode_location that is a proper_part_of some right_frontopolar_scalp_surface_region and is disjoint with ITT_AF2, ITT_AF4, ITT_AF6, ITT_RVEOG.International 10-10 channel FP2 (ITT_FP2) is a standard location on the scalp surface that is located in the right_frontopolar_scalp_surface_region. It is rostral_to ITT_AF2 and left_of ITT_AF4.NEMO_spatialITT_RVEOG_location2009-05-072011-04-28Curator.ITT_RVEOG_locationITT_RVEOG_location is an ITT_electrode_location that is a proper_part_of some right_frontopolar_scalp_surface_region and is disjoint with ITT_AF2, ITT_AF4, ITT_AF6, ITT_FP2.International 10-10 channel RVEOG (ITT_RVEOG) is a standard location on the scalp surface that is located in the right_frontopolar_scalp_surface_region. It is rostral_to ITT_FP2.NEMO_spatialITT_C1_location2009-05-072011-04-28Curator.ITT_C1_locationITT_C1_location is an ITT_electrode_location that is a proper_part_of some left_parietal_scalp_surface_region and is disjoint with ITT_C3, ITT_C5, ITT_CP1, ITT_CP3, ITT_CP5, ITT_P1, ITT_P3, ITT_P5.International 10-10 channel C1 (ITT_C1) is a standard location on the scalp surface that islocated in the left_parietal_scalp_surface_region. It is rostral_to ITT_CP1 and right_of ITT_C3.NEMO_spatialITT_C3_location2009-05-072011-04-28Curator.ITT_C3_locationITT_C3_location is an ITT_electrode_location that is a proper_part_of some left_parietal_scalp_surface_region and is disjoint with ITT_C1, ITT_C5, ITT_CP1, ITT_CP3, ITT_CP5, ITT_P1, ITT_P3, ITT_P5.International 10-10 channel C3 (ITT_C3) is a standard location on the scalp surface that is located in the left_parietal_scalp_surface_region. It is rostral_to ITT_CP3 and right_of ITT_C5.NEMO_spatialITT_C5_location2009-05-072011-04-28Curator.ITT_C5_locationITT_C5_location is an ITT_electrode_location that is a proper_part_of some left_parietal_scalp_surface_region and is disjoint with ITT_C1, ITT_C3, ITT_CP1, ITT_CP3, ITT_CP5, ITT_P1, ITT_P3, ITT_P5.International 10-10 channel C5 (ITT_C5) is a standard location on the scalp surface that is located in the left_parietal_scalp_surface_region. It is rostral_to ITT_CP5 and left_of ITT_C3.NEMO_spatialITT_CP1_location2009-05-072011-04-28Curator.ITT_CP1_locationITT_CP1_location is an ITT_electrode_location that is a proper_part_of some left_parietal_scalp_surface_region and is disjoint with ITT_C1, ITT_C3, ITT_C5, ITT_CP3, ITT_CP5, ITT_P1, ITT_P3, ITT_P5.International 10-10 channel CP1 (ITT_CP1) is a standard location on the scalp surface that is located in the left_parietal_scalp_surface_region. It is rostral_to ITT_P1 and right_of ITT_CP3.NEMO_spatialITT_CP3_location2009-05-072011-04-28Curator.ITT_CP3_locationITT_CP3_location is an ITT_electrode_location that is a proper_part_of some left_parietal_scalp_surface_region and is disjoint with ITT_C1, ITT_C3, ITT_C5, ITT_CP1, ITT_CP5, ITT_P1, ITT_P3, ITT_P5.International 10-10 channel CP3 (ITT_CP3) is a standard location on the scalp surface that is located in the left_parietal_scalp_surface_region. It is rostral_to ITT_P3 and right_of ITT_CP3.NEMO_spatialITT_CP5_location2009-05-072011-04-28Curator.ITT_CP5_locationITT_CP5_location is an ITT_electrode_location that is a proper_part_of some left_parietal_scalp_surface_region and is disjoint with ITT_C1, ITT_C3, ITT_C5, ITT_CP1, ITT_CP3, ITT_P1, ITT_P3, ITT_P5.International 10-10 channel CP5 (ITT_CP5) is a standard location on the scalp surface that is located in the left_parietal_scalp_surface_region. It is rostral_to ITT_P5 and left_of ITT_CP3.NEMO_spatialITT_P1_location2009-05-072011-04-28Curator.ITT_P1_locationITT_P1_location is an ITT_electrode_location that is a proper_part_of some left_parietal_scalp_surface_region and is disjoint with ITT_C1, ITT_C3, ITT_C5, ITT_CP1, ITT_CP3, ITT_CP5, ITT_P3, ITT_P5.International 10-10 channel P1 (ITT_P1) is a standard location on the scalp surface that is located in the left_parietal_scalp_surface_region. It is caudal_to ITT_CP1 and right_of ITT_P3.NEMO_spatialITT_P3_location2009-05-072011-04-28Curator.ITT_P3_locationITT_P3_location is an ITT_electrode_location that is a proper_part_of some left_parietal_scalp_surface_region and is disjoint with ITT_C1, ITT_C3, ITT_C5, ITT_CP1, ITT_CP3, ITT_CP5, ITT_P1, ITT_P5.International 10-10 channel P3 (ITT_P3) is a standard location on the scalp surface that is located in the left_parietal_scalp_surface_region. It is caudal_to ITT_CP3, left_of ITT_P1 and right_of ITT_P5.NEMO_spatialITT_P5_location2009-05-072011-04-28Curator.ITT_P5_locationITT_P5_location is an ITT_electrode_location that is a proper_part_of some left_parietal_scalp_surface_region and is disjoint with ITT_C1, ITT_C3, ITT_C5, ITT_CP1, ITT_CP3, ITT_CP5, ITT_P1, ITT_P3.International 10-10 channel P5 (ITT_P5) is a standard location on the scalp surface that is located in the left_parietal_scalp_surface_region. It is caudal_to ITT_CP5 and right_of ITT_P3.NEMO_spatialITT_CPz_location2009-05-072011-04-28Curator.ITT_CPz_locationITT_CPz_location is an ITT_electrode_location that is a proper_part_of some medial_parietal_scalp_surface_region and is disjoint with ITT_Cz, ITT_Poz and ITT_Pz.International 10-10 channel CPz (ITT_Cpz) is a standard location on the scalp surface that is located in the medial_parietal_scalp_surface_region. It is caudal_to ITT_Cz and rostral_to ITT_Pz.NEMO_spatialITT_Cz_location2009-05-072011-04-28Curator.ITT_Cz_locationITT_Cz_location is an ITT_electrode_location that is a proper_part_of some medial_parietal_scalp_surface_region and is disjoint with ITT_CPz, ITT_Poz and ITT_Pz.International 10-10 channel Cz (ITT_Cz) is a standard location on the scalp surface that is located in the medial_parietal_scalp_surface_region. It is rostral_to ITT_CPz.NEMO_spatialITT_POz_location2009-05-072011-04-28Curator.ITT_POz_locationITT_POz_location is an ITT_electrode_location that is a proper_part_of some medial_parietal_scalp_surface_region and is disjoint with ITT_Cz, ITT_CPz a.nd ITT_Pz.International 10-10 channel POz (ITT_POz) is a standard location on the scalp surface that is located in the medial_parietal_scalp_surface_region. It is caudal_to ITT_Pz.NEMO_spatialITT_Pz_location2009-05-072011-04-28Curator.ITT_Pz_locationITT_Pz_location is an ITT_electrode_location that is a proper_part_of some medial_parietal_scalp_surface_region and is disjoint with ITT_Cz, ITT_CPz a.nd ITT_POz.International 10-10 channel Pz (ITT_Pz) is a standard location on the scalp surface that is located in the medial_parietal_scalp_surface_region. It is caudal_to ITT_CPz and rostral to ITT_POz.NEMO_spatialITT_C2_location2009-05-072011-04-28Curator.ITT_C2_locationITT_C2_location is an ITT_electrode_location that is a proper_part_of some right_parietal_scalp_surface_region and is disjoint with ITT_C4, ITT_C6, ITT_CP2, ITT_CP4, ITT_CP6, ITT_P2, ITT_P4, ITT_P6.International 10-10 channel C2 (ITT_C2) is a standard location on the scalp surface that is located in the right_parietal_scalp_surface_region. It is rostral to ITT_CP2 and left_of CP4.NEMO_spatialITT_C4_location2009-05-072011-04-28Curator.ITT_C4_locationITT_C4_location is an ITT_electrode_location that is a proper_part_of some right_parietal_scalp_surface_region and is disjoint with ITT_C2, ITT_C6, ITT_CP2, ITT_CP4, ITT_CP6, ITT_P2, ITT_P4, ITT_P6.International 10-10 channel C4 (ITT_C4) is a standard location on the scalp surface that is located in the right_parietal_scalp_surface_region. It is rostral to ITT_CP4, right of C2 and left_of C6.NEMO_spatialITT_C6_location2009-05-072011-04-28Curator.ITT_C6_locationITT_C6_location is an ITT_electrode_location that is a proper_part_of some right_parietal_scalp_surface_region and is disjoint with ITT_C2, ITT_C4, ITT_CP2, ITT_CP4, ITT_CP6, ITT_P2, ITT_P4, ITT_P6.International 10-10 channel C6 (ITT_C6) is a standard location on the scalp surface that is located in the right_parietal_scalp_surface_region. It is rostral to ITT_CP6 and right_of C4.NEMO_spatialITT_CP2_location2009-05-072011-04-28Curator.ITT_CP2_locationITT_CP2_location is an ITT_electrode_location that is a proper_part_of some right_parietal_scalp_surface_region and is disjoint with ITT_C2, ITT_C4, ITT_C6, ITT_CP4, ITT_CP6, ITT_P2, ITT_P4, ITT_P6.International 10-10 channel CP2 (ITT_CP2) is a standard location on the scalp surface that is located in the right_parietal_scalp_surface_region. It is rostral_to P2, caudal_to ITT_C2 and left_of CP4.NEMO_spatialITT_CP4_location2009-05-072011-04-24Curator.ITT_CP4_locationITT_CP4_location is an ITT_electrode_location that is a proper_part_of some right_parietal_scalp_surface_region and is disjoint with ITT_C2, ITT_C4, ITT_C6, ITT_CP2, ITT_CP6, ITT_P2, ITT_P4, ITT_P6.International 10-10 channel CP4 (ITT_CP4) is a standard location on the scalp surface that is located in the right_parietal_scalp_surface_region. It is rostral_to P4, caudal_to ITT_C4, right_of CP2 and left_of CP6.NEMO_spatialITT_CP6_location2009-05-072011-04-24Curator.ITT_CP6_locationITT_CP6_location is an ITT_electrode_location that is a proper_part_of some right_parietal_scalp_surface_region and is disjoint with ITT_C2, ITT_C4, ITT_C6, ITT_CP2, ITT_CP4, ITT_P2, ITT_P4, ITT_P6.International 10-10 channel CP6 (ITT_CP6) is a standard location on the scalp surface that is located in the right_parietal_scalp_surface_region. It is rostral_to ITT_P6, caudal_to ITT_C6, and left_of CP4.NEMO_spatialITT_P2_location2009-05-072011-04-28Curator.ITT_P2_locationITT_P2_location is an ITT_electrode_location that is a proper_part_of some right_parietal_scalp_surface_region and is disjoint with ITT_C2, ITT_C4, ITT_C6, ITT_CP2, ITT_CP4, ITT_CP6, ITT_P4, ITT_P6.International 10-10 channel P2 (ITT_P2) is a standard location on the scalp surface that is located in the right_parietal_scalp_surface_region. It is caudal_to ITT_CP2 and left_of P4.NEMO_spatialITT_P4_location2009-05-072011-04-28Curator.ITT_P4_locationITT_P4_location is an ITT_electrode_location that is a proper_part_of some right_parietal_scalp_surface_region and is disjoint with ITT_C2, ITT_C4, ITT_C6, ITT_CP2, ITT_CP4, ITT_CP6, ITT_P2, ITT_P6.International 10-10 channel P4 (ITT_P4) is a standard location on the scalp surface that is located in the right_parietal_scalp_surface_region. It is caudal_to ITT_CP4, right_of ITT_P2 and left_of P6.NEMO_spatialITT_P6_location2009-05-072011-04-24Curator.ITT_P6_locationITT_P6_location is an ITT_electrode_location that is a proper_part_of some right_parietal_scalp_surface_region and is disjoint with ITT_C2, ITT_C4, ITT_C6, ITT_CP2, ITT_CP4, ITT_CP6, ITT_P2, ITT_P4.International 10-10 channel P6 (ITT_P6) is a standard location on the scalp surface that is located in the right_parietal_scalp_surface_region. It is caudal_to ITT_CP6 and right_of ITT_P4.NEMO_spatialITT_PO7_location2009-05-072011-04-28Curator.ITT_PO7_locationITT_PO7_location is an ITT_electrode_location that is a proper_part_of some left_posterotemporal_scalp_surface_region and is disjoint with ITT_PO9, ITT_P7, ITT_P9, ITT_T7, ITT_TP7, ITT_TP9.International 10-10 channel PO7 (ITT_PO7) is a standard location on the scalp surface that is located in the left_posterotemporal_scalp_surface_region. It is caudal_to ITT_P7 and right_of ITT_PO9.NEMO_spatialITT_PO9_location2009-05-072011-04-28Curator.ITT_PO9_locationITT_PO9_location is an ITT_electrode_location that is a proper_part_of some left_posterotemporal_scalp_surface_region and is disjoint with ITT_PO7, ITT_P7, ITT_P9, ITT_T7, ITT_TP7, ITT_TP9.International 10-10 channel PO9 (ITT_PO9) is a standard location on the scalp surface that is located in the left_posterotemporal_scalp_surface_region. It is caudal_to ITT_P9 and left_of ITT_PO7.NEMO_spatialITT_P7_location2009-05-072011-04-28Curator.ITT_P7_locationITT_P7_location is an ITT_electrode_location that is a proper_part_of some left_posterotemporal_scalp_surface_region and is disjoint with ITT_PO7, ITT_PO9, ITT_P9, ITT_T7, ITT_TP7, ITT_TP9.International 10-10 channel P7 (ITT_P7) is a standard location on the scalp surface that is located in the left_posterotemporal_scalp_surface_region. It is rostral_to PO7, caudal_to ITT_TP7 and right_of ITT_P9.NEMO_spatialITT_P9_location2009-05-072011-04-28Curator.ITT_P9_locationITT_P9_location is an ITT_electrode_location that is a proper_part_of some left_posterotemporal_scalp_surface_region and is disjoint with ITT_PO7, ITT_PO9, ITT_P7, ITT_T7, ITT_TP7, ITT_TP9.International 10-10 channel P9 (ITT_P9) is a standard location on the scalp surface that is located in the left_posterotemporal_scalp_surface_region. It is rostral_to PO9, caudal_to ITT_TP9, and left_of P7.NEMO_spatialITT_T7_location2009-05-072011-04-28Curator.ITT_T7_locationITT_T7_location is an ITT_electrode_location that is a proper_part_of some left_posterotemporal_scalp_surface_region and is disjoint with ITT_PO7, ITT_PO9, ITT_P7, ITT_P9, ITT_TP7, ITT_TP9.International 10-10 channel T7 (ITT_T7) is a standard location on the scalp surface that is located in the left_posterotemporal_scalp_surface_region. It is rostral_to TP9 and right_of TP9.NEMO_spatialITT_TP7_location2009-05-072011-04-28Curator.ITT_TP7_locationITT_TP7_location is an ITT_electrode_location that is a proper_part_of some left_posterotemporal_scalp_surface_region and is disjoint with ITT_PO7, ITT_PO9, ITT_P7, ITT_P9, ITT_T7, ITT_TP9.International 10-10 channel TP7 (ITT_TP7) is a standard location on the scalp surface that is located in the left_posterotemporal_scalp_surface_region. It is rostral_to P7, caudal_to T7, and right_of TP9.NEMO_spatialITT_TP9_location2009-05-072011-04-28Curator.ITT_TP9_locationITT_TP9_location is an ITT_electrode_location that is a proper_part_of some left_posterotemporal_scalp_surface_region and is disjoint with ITT_PO7, ITT_PO9, ITT_P7, ITT_P9, ITT_T7, ITT_TP7.International 10-10 channel TP9 (ITT_TP9) is a standard location on the scalp surface that is located in the left_posterotemporal_scalp_surface_region. It is rostral_to P9 and left_of TP7.NEMO_spatialITT_PO8_location2009-05-072011-04-28Curator.ITT_PO8_locationITT_PO8_location is an ITT_electrode_location that is a proper_part_of some right_posterotemporal_scalp_surface_region and is disjoint with ITT_PO10, ITT_P8, ITT_P10, ITT_T8, ITT_TP8, ITT_TP10.International 10-10 channel PO8 (ITT_PO8) is a standard location on the scalp surface that is located in the right_posterotemporal_scalp_surface_region. It is caudal_to P8 and left_of PO10.NEMO_spatialITT_PO10_location2009-05-072011-04-28Curator.ITT_PO10_locationITT_PO10_location is an ITT_electrode_location that is a proper_part_of some right_posterotemporal_scalp_surface_region and is disjoint with ITT_PO8, ITT_P8, ITT_P10, ITT_T8, ITT_TP8, ITT_TP10.International 10-10 channel PO10 (PO10) is a standard location on the scalp surface that is located in the right_posterotemporal_scalp_surface_region. It is caudal_to P10 and right_of PO8.NEMO_spatialITT_P8_location2009-05-072011-04-28Curator.ITT_P8_locationITT_T8_location is an ITT_electrode_location that is a proper_part_of some right_posterotemporal_scalp_surface_region and is disjoint with ITT_PO8, ITT_P8, ITT_P10, ITT_T8, ITT_TP8, ITT_TP10.International 10-10 channel P8 (ITT_P8) is a standard location on the scalp surface that is located in the right_posterotemporal_scalp_surface_region. It is rostral_to ITT_TP8 caudal_to ITT_TP8 and left_of ITT_P10.NEMO_spatialITT_P10_location2009-05-072011-04-28Curator.ITT_P10_locationITT_P10_location is an ITT_electrode_location that is a proper_part_of some right_posterotemporal_scalp_surface_region and is disjoint with ITT_PO8, ITT_PO10, ITT_P8, ITT_T8, ITT_TP8, ITT_TP10.International 10-10 channel P10 (ITT_P10) is a standard location on the scalp surface that is located in the right_posterotemporal_scalp_surface_region. It is rostral_to ITT_PO10, caudal_to ITT_TP10 and right_of ITT_P8.NEMO_spatialITT_T8_location2009-05-072011-04-28Curator.ITT_T8_locationITT_T8_location is an ITT_electrode_location that is a proper_part_of some right_posterotemporal_scalp_surface_region and is disjoint with ITT_PO8, ITT_PO10, ITT_P8, ITT_P10, ITT_TP8, ITT_TP10.International 10-10 channel T8 (ITT_T8) is a standard location on the scalp surface that is located in the right_posterotemporal_scalp_surface_region. It is rostral_to ITT_TP8 and left_of ITT_TP10.NEMO_spatialITT_TP8_location2009-05-072011-04-28Curator.ITT_TP8_locationITT_TP8_location is an ITT_electrode_location that is a proper_part_of some right_posterotemporal_scalp_surface_region and is disjoint with ITT_PO8, ITT_PO10, ITT_P8, ITT_P10, ITT_T8, ITT_TP10.International 10-10 channel TP8 (ITT_TP8) is a standard location on the scalp surface that is located in the right_posterotemporal_scalp_surface_region. It is rostral_to ITT_P6 and left_of ITT_TP10.NEMO_spatialITT_TP10_location2009-05-072011-04-28Curator.ITT_TP10_locationITT_TP10_location is an ITT_electrode_location that is a proper_part_of some right_posterotemporal_scalp_surface_region and is disjoint with ITT_PO8, ITT_PO10, ITT_P8, ITT_P10, ITT_T8, ITT_TP8.International 10-10 channel TP10 (ITT_TP10) is a standard location on the scalp surface that is located in the right_posterotemporal_scalp_surface_region. It is rostral_to ITT_P10 and right_of ITT_TP8.NEMO_spatialright_occipital_scalp_surface_region2009-05-072011-04-27Curator.NEMO_spatialThe following ITT channels are located_in this scalp_region: O2, PO2, PO4, PO6.ontoDefinition text goes HEREright_occipital_scalp_region is the right part of the occipital_scalp_region. It is caudal to the right_parietal_scalp_regionright_occipital_scalp_surface_regionscalp_surface2009-05-072011-04-22A scalp_surface is an anatomical_surface that is a proper_part_of the scalp.Curator.NEMO_spatialNote that the scalp_surface is defined in NEMO as a two-dimensional object_boundary (specifically, an anatomical_surface), not to be confused with the three-dimensional scalp, which is a kind of anatomical_object.Technically, scalp_surface is an external object_boundary (as opposed to an internal object_boundary. See "NEMO-TR2009-001_BoundaryClasses.rtf" for details. Since we have not defined internal and external in NEMO, we have excluded this restriction from the ontoDefinition.The scalp_surface is the outer-most surface of skin that surrounds the head.scalp_surfacescalp_surface_region is exact location_of scalp_surface. It might be more appropriate to state that scalp_surface surface_of scalp. But the definition of 'surface_of' in CARO specifically requires the domain to be some anatomical surface (which is not presently defined in NEMO). We have therefore used 'location_of' to express the relationship between the scalp_surface and some scalp_surface_region.scalp_surface_region2009-05-072011-04-27A scalp_surface_region is a two-dimensional spatial region, that is corresponds exactly to the location (and shape) of the entire scalp surface. It is composed of several fiat parts, which correspond to anatomically defined regions of the skull (occipital, parietal, frontal, and temporal)..A scalp_surface_region is an anatomical_surface_region that is the location_of some scalp_surface.A scalp_surface_region is defined (by fiat) as the entire spatial region that corresponds to the exact_location_of the scalp surface. The 6 disjoint scalp_regions defined in NEMO_spatial have arbitrarily defined (fiat) spatial boundaries, which are characterized in 2D space (x and y dimensions).Curator.NEMO_spatialNote that scalp_surface_region is defined in NEMO as a two-dimensional spatial_region (not to be confused with scalp_region, which is three-dimensional ).scalp_surface_regionscalp_surface_region is exact location_of scalp_surface. It might be more appropriate to state that scalp_surface surface_of scalp. But the definition of 'surface_of' in CARO specifically requires the domain to be some anatomical surface (which is not presently defined in NEMO). We have therefore used 'location_of' to express the relationship between the scalp_surface and some scalp_surface_region.ITT_O2_location2009-05-072011-04-28Curator.ITT_O2_locationITT_O2_location is an ITT_electrode_location that is a proper_part_of some right_occipital_scalp_surface_region and is disjoint with ITT_PO2, ITT_PO4, ITT_PO6.International 10-10 channel O2 (ITT_O2) is a standard location on the scalp surface that is located in the right_occipital_scalp_surface_region. It is caudal_to ITT_PO2 and left_of ITT_PO6.NEMO_spatialITT_PO2_location2009-05-072011-04-28Curator.ITT_PO2_locationITT_PO2_location is an ITT_electrode_location that is a proper_part_of some right_occipital_scalp_surface_region and is disjoint with ITT_O2, ITT_PO4, ITT_PO6.International 10-10 channel PO2 (ITT_PO2) is a standard location on the scalp surface that is located in the right_occipital_scalp_surface_region. It is rostral_to ITT_O2 and left_of ITT_PO4.NEMO_spatialITT_PO4_location2009-05-072011-04-28Curator.ITT_PO4_locationITT_PO4_location is an ITT_electrode_location that is a proper_part_of some right_occipital_scalp_surface_region and is disjoint with ITT_O2, ITT_PO2, ITT_PO6.International 10-10 channel PO4 (ITT_PO4 is a standard location on the scalp surface that is located in the right_occipital_scalp_surface_region. It is rostral_to ITT_O2, left_of ITT_PO6, and right_of ITT_PO2.NEMO_spatialITT_PO6_location2009-05-072011-04-28Curator.ITT_PO6_locationITT_PO6_location is an ITT_electrode_location that is a proper_part_of some right_occipital_scalp_surface_region and is disjoint with ITT_O2, ITT_PO2, ITT_PO4.International 10-10 channel PO6 (ITT_PO6) is a standard location on the scalp surface that is located in the right_occipital_scalp_surface_region. It is rostral_to ITT_O2 and right_of ITT_PO4.NEMO_spatialbrief_event_related_duration...[incomplete]2009-06-072009-08-02NEMO_temporalbrief_event_related_durationbrief_event_related_duration is a type of event_related_duration_quality that characterizes the duration of an occurrent that is time-locked to an event as brief or phasic. "Brief" is operationally defined as 100 ms or less, and is measured as the difference between the occurrent onset and occurrent offset.brief_event_related_duration is an event_related_duration that...extended_event_related_duration2009-06-072009-08-02NEMO_temporalOccurrent X has_quality brief_post_related_duration just in case the difference between the onset and offset of X is 101 ms or more.extended_event_related_durationextended_event_related_duration is a type of event_related_duration_quality that characterizes the duration of an occurrent that is time-locked to an event as tonic or extended. "Extended" is operationally defined as 101 ms or more, and is measured as the difference between the occurrent onset and occurrent offset.ontoDefinition text goes HEREevent_related_latency...[incomplete]2009-06-062009-08-02NEMO_temporalevent_related_latencyevent_related_latency is a event_related_temporal_quality that...[incomplete]event_related_latency is a type of event_related_temporal_quality that characterizes the latency of an occurrent (e.g., early vs. late onset of a process or an event).early-mid_post-event_latency2009-06-072009-08-02NEMO_temporalOccurrent X has_quality early-mid_post-event_latency just in case the onset or peak of X occurs within some early-midlatency_event_related_interval.early-mid_post-event_latencyearly-mid_post-event_latency is a type of event_related_latency_quality that characterizes the latency of an occurrent that is time-locked to an event as early-to-mid latency. "Early-to-mid latency" is operationally defined as 151-300 ms after the event boundary.ontoDefinition text goes HEREearly_post-event_latency2009-06-072009-06-08NEMO_temporalOccurrent X has_quality early_post-event_latency just in case the onset or peak of X occurs within some early_event_related_interval.early_post-event_latencyearly_post-event_latency is a type of event_related_latency_quality that characterizes the latency of an occurrent that is time-locked to an event as early. "Early" is operationally defined as 0-150 ms after the event boundary.ontoDefinition text goes HERElate_post-event_latency...[incomplete]2009-06-072010-08-02NEMO_temporalOccurrent X has_quality late_post-event_latency just in case the onset or peak of X occurs within some late_event_related_interval.late_post-event_latencylate_post-event_latency is a type of event_related_latency that characterizes the latency of an occurrent that is time-locked to an event as late. "Late" is operationally defined as 800 ms after the event boundary or later.late_post-event_latency is an event_related_latency that...[incomplete] mid-late_post-event_latency...[incomplete]2009-06-072010-08-02NEMO_temporalOccurrent X has_quality mid-late_post-event_latency just in case the onset or peak of X occurs within some mid-late_event_related_interval.mid-late_post-event_latencymid-late_post-event_latency is a type of event_related_latency that characterizes the latency of an occurrent that is time-locked to an event as mid-to-late. "Mid-to-late" is operationally defined as 501-800 ms after the event boundary.mid-late_post-event_latency is an event_related_latency that...[incomplete]mid_post-event_latency...[incomplete]2009-06-072010-08-02NEMO_temporalOccurrent X has_quality mid_post-event_latency just in case the onset or peak of X occurs within some midlatency_event_related_interval.mid_post-event_latencymid_post-event_latency is a type of event_related_latency_quality that characterizes the latency of an occurrent that is time-locked to an event as mid latency. "Mid latency" is operationally defined as 301-500 ms after the event boundary.mid_post-event_latency is an event_related_latency that...[incomplete]physiological_state2009-06-062010-07-29A physiological_state is a disposition that inheres_in some biomaterial_object A physiological_state is disposition that inheres in some biomaterial_object and gives rise to physiological processes and events (e.g., neural activity).Consider moving this directly into NEMO_ERP ontologyCurator.NEMO_temporalphysiological_statephysiological_function2009-06-062011-07-02A physiological function is the function of a biomaterial object or objects (cells, organelles, tissues, organs, system of organs) that is performed during mechanical, physical and biochemical processes in order to maintain and/or restore homeostatsis.Has been marked as 'obsolete' in PATO.NEMO_temporalhttp://en.wikipedia.org/wiki/Physiologyhttp://www.answers.com/topic/physiological-functionsphysiological_functionphysiological_function is a function that...[incomplete]physiological_role2009-06-062011-07-02NEMO_temporalPhysiological role is the role played a biomaterial object in the course of initiating, maintaining, or modifying a physiological process. curatorphysiological_rolephysiological_role is a role that...[incomplete]brain_electrophysiological_state2009-06-062010-07-29A brain_electrophysiological_state is a disposition that inheres in some brain or brain part and gives rise to physiological processes and events (e.g., neural activity).A brain_electrophysiological_state is a disposition that inheres_in some brain or regional_part_of_brain.Consider moving this directly into NEMO_ERP ontologyCurator.NEMO_temporalbrain_electrophysiological_statebrain_microstatephysiological_process2010-04-262012-05-10A physiological_process is a process involving one more more components of the nervous system.A physiological_process is a process that has_participant some physiological_state.bodily processevent_related_temporal_interval...[incomplete]2009-06-072010-08-02NEMO_temporalNote that specific types of events (e.g., 'stimulus_event', 'response_event') are defined in NEMO_functional.event_related_temporal_intervalevent_related_temporal_interval is an interval of time that is time-locked (time=0) to an event_boundary (e.g., onset of presentation of a visual stimulus, peak of QRS wave, onset/offset of response, etc.).event_related_temporal_interval is an interval that...[incomplete]event_related_time_windowpre-event_related_temporal_interval...[incomplete]2009-06-072010-08-02NEMO_temporalpre-event_related_interval is an event_related_temporal_interval that spans an interval of time prior to an event_boundary (e.g., onset of presentation of a visual stimulus, peak of QRS wave, offset of vocab response, etc.).pre-event_related_temporal_intervalpre-event_related_temporal_interval is an event_related_temporal_interval that...[incomplete]post-event_related_temporal_interval...[incomplete]2009-06-072010-08-02NEMO_temporalpost-event_related_interval is an event_related_temporal_interval that spans an interval of time after an event_boundary (e.g., onset of presentation of a visual stimulus, peak of QRS wave, onset/offset of response, etc.).post-event_related_interval is an event_related_temporal_interval that...post-event_related_temporal_intervalearly_event_related_interval...[incomplete]2009-06-062010-08-02ERP patterns that are characterized by an early_event_related_interval are often said to be "exogenous" or stimulus-evoked (for stimulus-locked ERPs).NEMO_temporalearly_event_related_intervalearly_event_related_interval is a post-event_related_temporal_interval that...[incomplete]early_event_related_interval is defined (by fiat) as a post-event interval that is 150 ms or earlier.early-midlatency_event_related_interval...[incomplete]2009-06-062010-08-02NEMO_temporalearly-midlatency_event_related_intervalearly-midlatency_event_related_interval is a post-event_related_temporal_interval that...[incomplete]early-midlatency_event_related_interval is defined (by fiat) as a post-event interval that is 150-300 ms.midlatency_event_related_interval...[incomplete]2009-06-072010-08-02NEMO_temporalmidlatency_event_related_intervalmidlatency_event_related_interval is a post-event_related_temporal_interval that...[incomplete]midlatency_event_related_interval is defined (by fiat) as a post-event interval that is 300-500 ms.mid-late_event_related_interval...[incomplete]2009-06-072010-08-02NEMO_temporalmid-late_event_related_intervalmid-late_event_related_interval is a post-event_related_temporal_interval that...[incomplete]mid-late_event_related_interval is defined (by fiat) as a post-event interval that is 500-800 ms.late_event_related_interval...[incomplete]2009-06-072010-08-02NEMO_temporallate_event_related_intervallate_event_related_interval is a post-event_related_temporal_interval that...[incomplete]late_event_related_interval is defined (by fiat) as a post-event interval that is later than 800 ms.event_related_interval_0-50ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_0-50msevent_related_interval_0-50ms is a post-event interval that is from 0 to 50 ms.event_related_interval_0-50ms is an early_event_related_interval that...[incomplete]event_related_interval_101-150ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_101-150msevent_related_interval_101-150ms is a post-event interval that is from 101 to 150 ms.event_related_interval_101-150ms is an early_event_related_interval that...[incomplete]event_related_interval_51-100ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_51-100msevent_related_interval_51-100ms is a post-event interval that is from 51 to 100 ms.event_related_interval_51-100ms is an early_event_related_interval that...[incomplete]event_related_interval_151-200ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_151-200msevent_related_interval_151-200ms is a post-event interval that is from 151 to 200 ms.event_related_interval_151-200ms is an early-midlatency_event_related_interval that...[incomplete]event_related_interval_201-250ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_201-250msevent_related_interval_201-250ms is a post-event interval that is from 201 to 250 ms.event_related_interval_201-250ms is an early-midlatency_event_related_interval that...[incomplete]event_related_interval_251-300ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_251-300msevent_related_interval_251-300ms is a post-event interval that is from 251 to 300 ms.event_related_interval_251-300ms is an early-midlatency_event_related_interval that...[incomplete]event_related_interval_301-350ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_301-350msevent_related_interval_301-350ms is a midlatency_event_related_interval that...[incomplete]event_related_interval_301-350ms is a post-event interval that is from 301 to 350 ms.event_related_interval_351-400ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_351-400msevent_related_interval_351-400ms is a midlatency_event_related_interval that...[incomplete]event_related_interval_351-400ms is a post-event interval that is from 351 to 400 ms.event_related_interval_401-450ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_401-450msevent_related_interval_401-450ms is a midlatency_event_related_interval that...[incomplete]event_related_interval_401-450ms is a post-event interval that is from 401 to 450 msevent_related_interval_451-500ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_451-500msevent_related_interval_451-500ms is a midlatency_event_related_interval that...[incomplete]event_related_interval_451-500ms is a post-event interval that is from 451 to 500 msevent_related_interval_801-900ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_801-900msevent_related_interval_801-900ms is a late_event_related_interval that...[incomplete]event_related_interval_801-900ms is a post-event interval that is from 801 to 900msevent_related_interval_901-1000ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_901-1000msevent_related_interval_901-1000ms a late_event_related_interval that...[incomplete]event_related_interval_901-1000ms is a post-event interval that is from 901 to 1000msevent_related_interval_1001-1500ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_1001-1500msevent_related_interval_1001-1500ms is a late_event_related_interval that...[incomplete]event_related_interval_1001-1500ms is a post-event interval that is from 1001 to 1500msevent_related_interval_1501-2000ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_1501-2000msevent_related_interval_1501-2000ms is a late_event_related_interval that...[incomplete]event_related_interval_1501-2000ms is a post-event interval that is from 1501 to 2000msevent_related_interval_2001-3000ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_2001-3000msevent_related_interval_2001-3000ms is a late_event_related_interval that...[incomplete]event_related_interval_2001-3000ms is a post-event interval that is from 2001 to 3000msevent_related_interval_501-600ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_501-600msevent_related_interval_501-600ms is a mid-late_event_releted_interval that...[incomplete]event_related_interval_501-600ms is a post-event interval that is from 501 to 600 msevent_related_interval_601-700ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_601-700msevent_related_interval_601-700ms is a mid-late_event_releted_interval that...[incomplete]event_related_interval_601-700ms is a post-event interval that is from 601 to 700 msevent_related_interval_701-800ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_701-800msevent_related_interval_701-800ms is a mid-late_event_releted_interval that...[incomplete]event_related_interval_701-800ms is a post-event interval that is from 701 to 800 msevent_related_interval_Neg50-Neg1ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_Neg50-Neg1msevent_related_interval_Neg50-Neg1ms is a pre-event interval from 400 to 301 ms before event onsetevent_related_interval_Neg50-Neg1ms is a pre-evet_related_temporal_interval that...[incomplete]event_related_interval_Neg100-Neg51ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_Neg100-Neg51msevent_related_interval_Neg100-Neg51ms is a pre-event interval from 0 to 100 ms before event onsetevent_related_interval_Neg100-Neg51ms is a pre-evet_related_temporal_interval that...[incomplete]event_related_interval_Neg200-Neg101ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_Neg200-Neg101msevent_related_interval_Neg200-Neg101ms is a pre-event interval from 200 to 101 ms before event onsetevent_related_interval_Neg200-Neg101ms is a pre-evet_related_temporal_interval that...[incomplete]event_related_interval_Neg300-Neg201ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_Neg300-Neg201msevent_related_interval_Neg300-Neg201ms is a pre-event interval from 300 to 201 ms before event onsetevent_related_interval_Neg300-Neg201ms is a pre-evet_related_temporal_interval that...[incomplete]event_related_interval_Neg400-Neg301ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_Neg400-Neg301msevent_related_interval_Neg400-Neg301ms is a pre-event interval from 400 to 301 ms before event onsetevent_related_interval_Neg400-Neg301ms is a pre-evet_related_temporal_interval that...[incomplete]event_related_interval_Neg500-Neg401ms...[incomplete]2009-06-072010-08-02NEMO_temporalevent_related_interval_Neg500-Neg401msevent_related_interval_Neg500-Neg401ms is a pre-event interval from 500 to 401 ms before event onsetevent_related_interval_Neg500-Neg401ms is a pre-evet_related_temporal_interval that...[incomplete]error_related_frontocentral_negativity-.4-100-602009-06-072011-06-08Dehaene, S., M. I. Posner, et al. (1994). "Localization of a neural system for error detection and compensation." Psychological Science 5: 303-305.ERNERNGehring, W. J., B. Goss, et al. (1993). "A neural system for error detection and compensation." Psychological Science 4: 385-390.NEMO_erpThe error_related_frontocentral_negativity is a scalp-recorded_ERP_extracted_pattern
and has_proper_part SOME peak_latency_measurement_datum
that has_numeric_value SOME decimal[>="-100", <="-60"]
and has_proper_part SOME intensity_measurement_datum
that has_numeric_value SOME decimal[<="-0.4"]
that is_quality_measurement_of SOME intensity
that inheres_in SOME scalp_recorded_ERP
that unfolds_in SOME frontocentral_scalp_surface_region
and proper_part_of SOME averaged_EEG_data_set
that has_provenance_specification SOME event_type_label
that has_character_string_value SOME "onset_behavioral_event"
and has_provenance_specification SOME stimulus_type_label
that has_character_string_value SOME "object"error-related negativityerror_related_frontocentral_negativityerror_related_frontocentral_negativity is a negativity that is maximal over frontocentral scalp regions at about 100-60 ms before onset of the response when the participant is aware they have committed (or are about to commit) an error.frontocentral_P3a.43006002009-06-072011-08-13Bokura, H., Yamaguchi, S., & Kobayashi, S. (2001). Electrophysiological correlates for response inhibition in a Go/NoGo task. Clinical Neurophysiology, 112, 2224–2232.Dien, J., Spencer, K. M., and Donchin, E. (2004). Parsing the late positive complex: Mental chronometry and the ERP components that inhabit the neighborhood of the P300. Psychophysiology, 41, 665-678.NEMO_erpP300P3aThe frontocentral_P3a is a scalp-recorded_ERP_extracted_pattern
and has_proper_part SOME peak_latency_measurement_datum
that has_numeric_value SOME decimal[>="300", <="600"]
and has_proper_part SOME intensity_measurement_datum
that has_numeric_value SOME decimal[>="0.4"]
that is_quality_measurement_of SOME intensity
that inheres_in SOME scalp_recorded_ERP
that unfolds_in SOME frontocentral_scalp_surface_region
and proper_part_of SOME averaged_EEG_data_set
that has_provenance_specification SOME event_type_label
that has_character_string_value SOME "stimulus_onset"
and has_provenance_specification SOME stimulus_type_label
that has_character_string_value SOME "object"frontocentral_P3afrontocentral_P3a is a scalp-recorded ERP that is time-locked to a stimulus and has positive amplitude over frontocentral scalp ROI between about 400-700 ms after onset of the stimulus.inhibitory P3novelty P3stimulus_intensity2009-06-072009-06-09Cognitive Protocol Ontology (CogPO)Curator.NEMO_functionalhttp://purl.org/obo/owl/PATO#PATO_0000049http://purl.org/obo/owl/PATO#PATO_0000049stimulus_intensitystimulus_intensity is a stimulus_quality that...[incomplete]the intensity of an experiment stimulusevent_onset_latency2009-06-062010-07-26An event_onset_latency is a temporal_instant that is the proper_part_of some event_related_temporal_interval, and some event_onset occurs_at this event_onset_latencyAn event_onset_latency is the temporal instant (time point) when a process or event is initiated. The latency is measured with respect to a baseline (zero) point. Event onset is defined as the first time point when the activity (event) amplitude deviates from baseline.Curator.NEMO_temporalevent_onset_latencythe temporal_instant when an event is initiated. For example, when a visual stimulus is presented, the instant it appears is its event_onset_latency, as measured from the baseline latency, where the stimulus is the event in question.event_offset_latency An event_offset_latency is a temporal_instant that is the proper_part_of some event_related_temporal_interval, and some event_offset occurs_at this event_offset_latency.2009-06-062010-07-26An event_offset_latency is the temporal instant (time point) when a process or event terminates. The latency is measured with respect to a baseline (zero) point. Event offset is defined as the first time point when the activity (event) amplitude returns to baseline.Curator.NEMO_temporalevent_offset_latencythe temporal_instant when an event terminates. For example, when a visual stimulus disappears, the instant it terminates is its event_offset_latency, as measured from the baseline latency, where the stimulus is the event in question.event_peak...[incomplete]...[incomplete]2009-06-062010-07-26NEMO_temporalevent_peakevent_peak is an event_boundary that occurs_at some event_peak_latencyERP_pattern_maximum ...[incomplete]...[incomplete]2009-06-062010-08-02An ERP_pattern_maximum is an ERP_pattern_peak that ...[incomplete]ERP_pattern_maximumNEMO_temporalERP_pattern_minimum ...[incomplete]...[incomplete]2009-06-062010-08-02An ERP_pattern_minimum is an ERP_pattern_peak that ...[incomplete]ERP_pattern_minimumNEMO_temporalexperimental_paradigm2009-06-062010-07-29An experiment_paradigm is a factorial design that is implemented in a given experiment session. Typically, these paradigms have been used repeatedly by different researchers, with only minor changes made so that the essential structure is still recognizable. They have become widely known and accepted by cognitive psychologists and generally have acquired informal (or formal) names. NOTE: multiple paradigm classes may apply for a given experiment.Cognitive Protocol Ontology (CogPO)Modified from BrainMapLex.xls ("Paradigm Class").NEMO_functionalPART_OF study_designdeprecate? or replace with OBI "study_design" and note that this is the equivalent of BrainMap's "experimental_paradigm"experimental_paradigmexperimental_paradigm is a protocol that...[incomplete]http://ontology.neuinfo.org/NIF/DigitalEntities/NIF-Investigation.owl#birnlex_2066experiment_contrast2009-06-062011-09-23BrainMapLex.xlsCognitive Protocol Ontology (CogPO)DEPRECATE? OR RENAME -- IMPORT CogPO/cogAtlas contrast classes & relationNEMO_functionalexperiment_contrastexperiment_contrast is defined as the dimension along which two experiment conditions are different. These differences are the possible sources for differences in experiment_response and physiological_response.experiment_contrast is protocol that...[incomplete]experiment_condition2009-06-072010-07-29A behavioral state during which a functional brain image is acquired. Addresses experimental design, rather than intent.BrainMapLex.xlsCognitive Protocol Ontology (CogPO)NEMO_functionalexperiment_conditionexperiment_condition is protocol that...[incomplete]semantically_relatedsemantically_unrelatedexperiment_instruction...[incomplete]2009-06-062010-07-27BrainMapLex.xls ????NEMO_functionalexperiment_instructionexperiment_instruction is an explicit direction that guides the behavior of the subject during an experimental session. It is formulated as a command. If a subject is instructed to read words aloud, the instruction is "Read" and the response type is "Speech"; rather than "Speak" as the instruction. (adapted from BrainMapLex)experiment_instruction is study_design_execution that...[incpomplete]part of an investigationisolated_word_recognition_paradigm2009-06-062010-08-02Curator.NEMO_functionalbehavioral paradigm that assesses a response to a word or word-like stimulus presented in isolation (i.e., where a trial consists of a single word).isolated_word_recognition_paradigmisolated_word_recognition_paradigm is an experimental_paradigm that...[incomplete]stimulus modality = auditory or visual
stimulus type = wordlexical_priming_paradigm2009-06-062010-08-02Curator.NEMO_functionalbehavioral paradigm that assesses a response to a word (target) that is preceded by another word (prime). The prime and target may be related or unrelated at various levels (phonological, orthographic, semantic, syntactic).lexical_priming_paradigmlexical_priming_paradigm is an experimental_paradigm that...[incomplete]stimulus modality = auditory or visual
stimulus type = word(s)sentence_semantic_priming_paradigm2009-06-062010-08-02Curator.NEMO_functionalbehavioral paradigm that assesses a response to a word (target) that is preceded by a sentence context that is either semantically related or unrelated to the target.sentence_semantic_priming_paradigmsentence_semantic_priming_paradigm is an experimental_paradigm that...[incomplete]stimulus modality = auditory or visual
stimulus type = word(s)instructions_contrast2009-06-072010-08-02An experiment_contrast that involves two different experiment_instructions.Cognitive Protocol Ontology (CogPO)Curator.NEMO_functionalinstructions_contrastinstructions_contrast is an experiment_contrast that...[incomplete]participant_group_contrast2009-06-072010-08-02An experiment_contrast that involves two different participant_groups.Cognitive Protocol Ontology (CogPO)Curator.NEMO_functionalparticipant_group_contrastparticipant_group_contrast is an experiment_contrast that...[incomplete]response_contrast2009-06-072010-08-02An experiment_contrast that involves two different types of experiment_response.Cognitive Protocol Ontology (CogPO)Curator.NEMO_functionalresponse_contrastresponse_contrast is an experiment_contrast that...[incomplete]session_contrast2009-06-072010-08-02An experiment_contrast that involves two different experiment_sessions (e.g., for a longitudinal or a training study).Cognitive Protocol Ontology (CogPO)Curator.NEMO_functionalsession_contrastsession_contrast is an experiment_contrast that...[incomplete]stimulus_contrast2009-06-072010-08-02An experiment_contrast that involves two different types of experiment_stimulus.Cognitive Protocol Ontology (CogPO)Curator.NEMO_functionalstimulus_contraststimulus_contrast is an experiment_contrast that...[incomplete]instruction_to_attend2009-06-072010-08-02Cognitive Protocol Ontology (CogPO)Curator.NEMO_functionalattend is a type of experiment_instruction in which an experiment participant is asked to "attend" to one kind of entity (stimulus) or stimulus channel without any other instructionsinstruction_to_attendinstruction_to_attend is an experiment_instruction that...[incomplete]passive_instructionsinstruction_to_count2009-06-072010-08-02Cognitive Protocol Ontology (CogPO)Curator.NEMO_functionalcount is a type of experiment_instruction in which an experiment participant is asked to "count" the number of instances of an experiment_stimulus that belong to a particular category.instruction_to_countinstruction_to_count is an experiment_instruction that...[incomplete]instruction_to_discriminate2009-06-072010-08-02Cognitive Protocol Ontology (CogPO)Curator.NEMO_functionaldiscriminate is a type of experiment_instruction in which an experiment participant is asked to decide whether two stimuli that are presented together or in succession are the same or different.instruction_to_discriminateinstruction_to_discriminate is an experiment_instruction that...[incomplete]instruction_to_recall2009-06-072010-05-09Cognitive Protocol Ontology (CogPO)Curator.NEMO_functionalinstruction_to_recallinstruction_to_recall is an experiment_instruction that...[incomplete]recall is a type of experiment_instruction in which an experiment participant is asked to "recall" some information about an experiment_stimulus that occurred earlier in the experiment_session.instruction_to_ignore2009-06-072010-08-02Cognitive Protocol Ontology (CogPO)Curator.NEMO_functionalignore is a type of experiment_instruction in which an experiment participant is asked to "ignore" to one kind of entity (stimulus) or stimulus channel.instruction_to_ignoreinstruction_to_ignore is an experiment_instruction that...[incomplete]button_press2009-06-072011-01-15Lie detection by functional magnetic resonance imaging. Lee T M C, Liu H L, Tan L H, Chan C C H, Mahankali S, Feng C, Hou J, Fox P T, Gao J H. Human Brain Mapping 2002 Mar; 15:157-164; PMID = 11835606.NEMO_functionalbutton_pressbutton_press is a behavioral_process that...[incomplete]button_press is the proccess of pressing a button or buttons with the hand or footcogPOv1.owlhttp://www.cogpo.org/ontologies/Button Presslimb_movement2009-06-072011-01-15An behavioral_process that involves free movement of a body limb (e.g., hand, arm, or foot).Curator.NEMO_functionallimb_movementlimb_movement is a behavioral_process that...[incomplete]saccade"The saccadic eye movement system is responsible for rapidly directing the fovea to a target of interest in visual space. This system generates a conjugate, ballistic movement of the eyes, called a saccade, that brings the fovea on a target" (Goldberg, M.E., Eggers, H.M., & Gouras, P. (1991). The ocular motor system. In E.R. Kandel, J.H. Schwartz, & T.M. Jessell (Eds.), Principles of neural science (3rd ed.), (pp.660-665). New York: Elsevier.)2009-06-092010-11-19A saccade is an abrupt eye movement from one point in the visual field to another, as occurs in reading.AOD 0000002727Alcohol and Other Drug Thesaurus (AOD) ID 0000002727.CRISP Thesaurus ID 4000-0319.CSP 4000-0319MSH D012438Medical Subject Headings (MSH) ID D012438.NCI C0036019NEMO_functionalNational Cancer Institute Metathesaurus (NCI) ID C0036019.Submitted to NIF in November 2010.cogPOv1.owlhttp://ncimeta.nci.nih.gov/ncimbrowser/ConceptReport.jsp?dictionary=NCI%20MetaThesaurus&code=C0036019http://www.cogpo.org/ontologies/COGPO_00142saccadesaccade is an eye_movement that...[incomplete]saccadessaccadic_eye_movementssaccadic_movementspeaking2009-06-072010-11-19NEMO_functionalcogPOv1.owlhttp://www.cogpo.org/ontologies/COGPO_00149ontoDefinition text goes HEREspeakingspeaking is a behavioral_process involves oral (spoken) communicationspeechtyping2009-06-072011-01-15NEMO_functionalbehavioral_process involving the use of a keyboardontoDefinition text goes HEREtypinglinguistic_object2009-06-072011-07-02A linguistic_object is the physical concretization of an abstract linguistic category (e.g., phoneme, grapheme, or lexeme).NEMO_functionallinguistic_objectontoDefinition text goes HEREmathematical_object2009-06-072011-04-01A mathematical_object is a graphical representation of an abstract mathematical entity, such as a number, set, matrix, or mathematical function.Curator.NEMO_functionalmathematical_objectontoDefinition text goes HEREsound2009-06-072011-03-30A sound is a longitudinal mechanical wave that is composed of frquencies within the range of human hearing (approximately 20Hz - 20 kHz).CRISP Thesaurus 2322-9777NEMO_functionalRCD Xa0xWThe subjective sensation of hearing is due to stimulation of hearing organs by sound vibrations.UMLS CUI C0037709http://en.wikipedia.org/wiki/Soundhttp://ncicb.nci.nih.gov/xml/owl/EVS/Thesaurus.owl#Soundhttp://purl.bioontology.org/ontology/CSP/2322-9777ontoDefinition text goes HEREsoundsound wavesound wavespicture2009-06-072011-03-30A picture is a visual representation of one ore more objects, persons, or scenes, that is painted, drawn, photographed, or otherwise rendered on a physical surface.Cognitive Protocol Ontology (CogPO)NCI Thesaurus ID C54273NEMO_functionalPicturesUmls CUI C0441469http://dictionary.reference.com/browse/pictureshttp://ncicb.nci.nih.gov/xml/owl/EVS/Thesaurus.owl#Picturehttp://www.cogpo.org/ontologies/COGPO_00172http://www.thefreedictionary.com/pictureontoDefinition text goes HEREpicturepicturesletter2009-06-072011-07-02A letter is a graphical representation of a grapheme, which is the smallest contrastive unit in a segmental alphabetical writing system. A letter is can often be mapped to a particular speech sound. However, in many alphabetical writing systems (especially in "opaque" vs. "transparent" orthographies) there is not a one-to-one mapping between letters and speech sounds.Crystal, D. (2003) A Dictionary of Linguistics and Phonetics. 5th Ed. Blackwell Publishing, Oxford, UK. pp. 211.NEMO_functionala letter is a linguistic_object that has_quality visual and.... [incomplete]allographallographshas_quality (visual)http://www.cogpo.org/ontologies/COGPO_00163letterlettersletter_sequence2009-06-072009-06-09DEPRECATENEMO_functionaladd attribute to indicate restriction: modality is visualan experiment_stimulus consisting of a string or sequence of letters.letter_sequenceontoDefinition text goes HEREsyllable2009-06-072011-07-02A syllable is a unit of pronunciation, which is typically larger than a single speech sound, but smaller than a word. A syllable comprises a nucleus (vowel or sonorant) and (optionally) an initial sound or sound sequence (onset) and a final sound or sound sequence (coda).A syllable typically consists of an onset and rime. An onset is a consonant or sonorant; onsets may be obligatory, optional or highly restricted in a particular language. A rime consists of a nucleus and a coda. The nucleus is obligatory in most languages and typically comprises a vowel (monophtong, diphthong or triphthong) or a sonorant (e.g. [r] or [l]). A coda is a sound or sound sequence that follows the nucleus.Crystal, D. (2003) A Dictionary of Linguistics and Phonetics. 5th Ed. Blackwell Publishing, Oxford, UK, pp. 347-348.Kenstowicz, M. (1993) Phonology in Generative Grammar. Blackwell Publishing, Oxford, UK. pp. 250-254.NEMO_functionalSyllables are often considered the phonological "building blocks" of words. Their structure can influence the rhythm of a language, its prosody, stress patterns and poetic meter.UMLS CUI C1553381has_quality (auditory)
has_proper_part (phoneme)http://en.wikipedia.org/wiki/Syllablehttp://ncicb.nci.nih.gov/xml/owl/EVS/Thesaurus.owl#Syllablehttp://www.cogpo.org/ontologies/COGPO_00171ontoDefinition text goes HEREsyllablesyllablesdiscourse2009-06-072011-07-02A discourse is a continuous stretch of language that consists of two or more sentences.Crystal, D. (2003) A Dictionary of Linguistics and Phonetics. 5th Ed. Blackwell Publishing, Oxford, UK, pp. 141-142, 415-416, 461-462. NEMO_functionaldiscoursehas_quality (auditory or visual)
has_proper_part (sentence)ontoDefinition text goes HEREnonword2009-06-072011-07-02A pseudoword is an unpronouncable word-like item (letter or sound sequence) that lacks semantic or pragmatic content (i.e., meaning). In English, "nist" is a pronouncable nonword (i.e., a pseudoword), whereas "drixmz" is an unpronounceable nonword.NEMO_functionalThe concept of a "nonword" (vs. a "pseudoword"): what is perceived as a nonword in one language, may be a word in another. For example, the string "Ljubica" is a word in Serbian, but an unpronounceable nonword in English (because the"lj" letter sequence renders the string unpronounceable in English).has_quality (visual)
has_proper_part (letter)http://en.wikipedia.org/wiki/Pseudowordhttp://www.cogpo.org/ontologies/PseudowordsnonwordontoDefinition text goes HEREunpronounceable nonwordword2009-06-072011-07-02Crystal, D. (2003) A Dictionary of Linguistics and Phonetics. 5th Ed. Blackwell Publishing, Oxford, UK, pp. 501-502.NEMO_functionalSpencer, A. (1991) Morphological Theory. Blackwell Publishing, Oxford, UK, pp. 4-6, 42-43.The smallest free form in natural language that can be uttered in isolation can express semantic or pragmatic content (i.e., meaning).has_quality (auditory or visual)
has_proper_part (morpheme)http://en.wikipedia.org/wiki/Wordhttp://semanticscience.org/resource/SIO_000114http://www.cogpo.org/ontologies/COGPO_00169ontoDefinition text goes HEREwordwordwordspseudoword2009-06-072011-07-02A pseudoword is a pronouncable word-like item (letter or sound sequence) that lacks semantic or pragmatic content (i.e., meaning). In the English language, "nest" is a word, while "nist" is perceived as a pseudoword (letter string with no meaning)NEMO_functionalPronounceability implies that pseudowords do not violate the phonotactic constraints of a particular language.has_quality (auditory or visual)
has_proper_part (letter or sound)http://en.wikipedia.org/wiki/Logatomehttp://en.wikipedia.org/wiki/Pseudowordhttp://www.cogpo.org/ontologies/PseudowordslogatomeontoDefinition text goes HEREpronounceable nonwordpseudowordpseudowordspicture_of_face20010-11-202011-03-30A picture_of_face is a picture that represents a human face or face-like figure.NEMO_functionalfacefaceshttp://www.cogpo.org/ontologies/COGPO_00154http://www.thefreedictionary.com/pictureontoDefinition text goes HEREpicture_of_facepicture_of_scene2009-06-072011-03-30A picture_of_scene is a picture that represents a natural landscape or other scenery.NEMO_functionalhttp://www.thefreedictionary.com/landscapeontoDefinition text goes HEREpicture_of_scenesimple_tone_isolated2009-06-072011-03-30A pure tone is an artificial sound that is generated by a linear acoustic system.A simple_tone_isolated is an isolated tonal sound with a sinusoidal waveform that is characterized by a constant frequency, amplitude, and phase, leading to a simple harmonic stimulation of the human eardrum.Juan G. Roederer (2008). The Physics and Psychophysics of Music: An Introduction.4th Edition. Springer. pp.28.NEMO_functionalhttp://en.wikipedia.org/wiki/Pure_tonehttp://www.cogpo.org/ontologies/COGPO_00164ontoDefinition text goes HEREpure tonesimple_tone_isolatedtonetonescomplex_tone_isolated2009-06-072011-03-30A complex_tone_isolated is an isolated tonal sound with a complex periodic waveform that is the sum of multiple simple (pure) tones of different frequencies.Juan G. Roederer (2008). The Physics and Psychophysics of Music: An Introduction.4th Edition. Springer. pp.28.NEMO_functionalcomplex_tone_isolatedcompound tonehttp://en.wikipedia.org/wiki/Musical_tonehttp://www.answers.com/topic/complex-tonehttp://www.cogpo.org/ontologies/COGPO_00164ontoDefinition text goes HEREtone_sequence2009-06-072011-04-01A sequence of simple or complex tones that is produced by a musical instrument, computer, or electrical oscilloscope.Curator.NEMO_functionalToneshttp://www.cogpo.org/ontologies/COGPO_00164ontoDefinition text goes HEREtonetone_sequencetonesresponse_quality2009-05-242009-06-07Cognitive Protocol Ontology (CogPO)NEMO_functionalOBI has 'response to a stimulus' (from Gene ontology (GO)) classified as a processual_entity, rather than as a dependent_contuant:rolean attribute (quality) of an experiment responseontoDefinition text goes HEREresponse_qualitystimulus_quality2009-06-072009-08-06Cognitive Protocol Ontology (CogPO)NEMO_functionalan attribute (quality) of an experiment stimulusontoDefinition text goes HEREstimulus_qualitytask_quality2009-05-242009-06-07Cognitive Protocol Ontology (CogPO)NEMO_functionalan attribute (quality) of an experiment taskontoDefinition text goes HEREtask_qualityresponse_accuracy2009-06-072009-06-09Cognitive Protocol Ontology (CogPO)NEMO_functionalontoDefinition text goes HEREresponse_accuracythe accuracy value of an experiment responseresponse_time2009-06-072009-06-09Cognitive Protocol Ontology (CogPO)NEMO_functionalontoDefinition text goes HEREresponse_timethe response time value of an experiment responsecorrect2009-06-072009-06-09Cognitive Protocol Ontology (CogPO)NEMO_functionalcorrectontoDefinition text goes HEREthe correctness of an experiment responseincorrect2009-06-072009-06-09Cognitive Protocol Ontology (CogPO)NEMO_functionalincorrectontoDefinition text goes HEREthe incorrectness of an experiment responsevery_fast_response_time2009-06-072009-08-06NEMO_functionalontoDefinition text goes HEREtextDefinition:...[incomplete]very_fast_response_timefast_response_time...[incomplete]2009-06-072009-08-06NEMO_functionalfast_response_timeontoDefinition text goes HEREmoderate_response_time...[incomplete]2009-06-072009-08-06NEMO_functionalmoderate_response_timeontoDefinition text goes HEREslow_response_time...[incomplete]2009-06-072009-08-06NEMO_functionalontoDefinition text goes HEREslow_response_timevery_slow_response_time...[incomplete]2009-06-072009-08-06NEMO_functionalontoDefinition text goes HEREvery_slow_response_timestimulus_complexity2009-06-072010-04-24Cognitive Protocol Ontology (CogPO)NEMO_functionalSee also http://purl.org/obo/owl/PATO#PATO_0001502http://purl.org/obo/owl/PATO#PATO_0001502ontoDefinition text goes HEREstimulus_complexitythe complexity of an experiment stimulusstimulus_familiarity2009-06-072009-10-16Cognitive Protocol Ontology (CogPO)NEMO_functionalontoDefinition text goes HEREstimulus_familiaritythe familiarity of an experiment stimulus (intended to refer to status of item in long-term memory)stimulus_modality2009-06-072009-06-09Cognitive Protocol Ontology (CogPO)NEMO_functionalontoDefinition text goes HEREstimulus_modalitythe modality of an experiment stimulusstimulus_valence2009-06-072009-06-09Cognitive Protocol Ontology (CogPO)NEMO_functionalontoDefinition text goes HEREstimulus_valencethe valence of an experiment stimuluscomplex2009-06-072010-04-24NEMO_functionalSee also http://purl.org/obo/owl/PATO#PATO_0001504complexhttp://purl.org/obo/owl/PATO#PATO_0001504ontoDefinition text goes HEREthe quality of being complexsimple2009-06-072010-04-24NEMO_functionalSee also http://purl.org/obo/owl/PATO#PATO_0001503http://purl.org/obo/owl/PATO#PATO_0001503ontoDefinition text goes HEREsimplethe quality of being simplefamiliar2009-06-072009-10-16NEMO_functionalfamiliarknownontoDefinition text goes HEREthe quality of being familiar (able to be categorized as a member of a known category or concept)novel2009-06-072009-10-16NEMO_functionalnovelontoDefinition text goes HEREthe quality of being unfamiliar (not a member of an existing category or concept)unfamiliarunknownintense2009-06-072009-06-09NEMO_functionalSee http://purl.org/obo/owl/PATO#PATO_0001782http://purl.org/obo/owl/PATO#PATO_0001782intenseontoDefinition text goes HEREthe quality of being intense (as applied to an experiment stimulus)mild2009-06-072010-04-24NEMO_functionalhttp://purl.org/obo/owl/PATO#PATO_0000394http://purl.org/obo/owl/PATO#PATO_0000394mildontoDefinition text goes HEREthe quality of being mild (as applied to an experiment stimulus)neutral_intensity2009-06-072009-06-09NEMO_functionalSee also http://purl.org/obo/owl/PATO#PATO_0000395http://purl.org/obo/owl/PATO#PATO_0000395neutral_intensityontoDefinition text goes HEREthe quality of being neutral_intensity (as applied to an experiment stimulus)auditory2009-06-072010-11-20NEMO_functionalauditoryhttp://www.cogpo.org/ontologies/CogPOver1.owl#COGPO_00125http://www.cogpo.org/ontologies/CogPOver1.owl#COGPO_00125ontoDefinition text goes HEREthe sensory modality that pertains to the sense of hearing. It usually arises from an audible stimulation of the auditory (hearing) system, such as from a sound.visual2009-06-072010-11-20NEMO_functionalThe visual modality is the sensory modality that pertains to the sense of sight. It usually but not always arises from the stimulation of the visual system with a light source of sufficient brightness to be visible.http://www.cogpo.org/ontologies/CogPOver1.owl#COGPO_00132http://www.cogpo.org/ontologies/CogPOver1.owl#COGPO_00132ontoDefinition text goes HEREvisualgustatory2009-06-072010-11-20NEMO_functionalThe gustatory modality is the sensory modality pertaining to the sense of taste or flavor. It usually but not always arises through stimulation of the gustatory system (e.g., tastebuds, nasal receptors).gustatoryhttp://www.cogpo.org/ontologies/CogPOver1.owl#COGPO_00123http://www.cogpo.org/ontologies/CogPOver1.owl#COGPO_00123ontoDefinition text goes HEREolfactory2009-06-072010-11-20NEMO_functionalThe olfactory modality is the sensory modality pertaining to the sense of smell. It usually but not always arises from the stimulation of the olfactory system by chemicals.http://www.cogpo.org/ontologies/CogPOver1.owl#COGPO_00130http://www.cogpo.org/ontologies/CogPOver1.owl#COGPO_00130olfactoryontoDefinition text goes HEREsomatosensory2009-06-072010-11-20NEMO_functionalThe tactile modality is the sensory modality pertaining to the sense of contact via the skin with other, external objects.http://www.cogpo.org/ontologies/CogPOver1.owl#COGPO_00131http://www.cogpo.org/ontologies/CogPOver1.owl#COGPO_00131ontoDefinition text goes HEREsomatosensorytactilepleasant2009-06-072009-06-09NEMO_functionalontoDefinition text goes HEREpleasantthe quality of having a pleasant valenceunpleasant2009-06-072009-06-09NEMO_functionalontoDefinition text goes HEREthe quality of having an unpleasant valenceunpleasantneutral_valence2009-06-072009-06-09NEMO_functionalneutral_valenceontoDefinition text goes HEREthe quality of having neutral valencetask_complexity2009-06-072009-06-09Cognitive Protocol Ontology (CogPO)NEMO_functionalontoDefinition text goes HEREtask_complexitythe complexity of an experiment tasktask_difficulty2009-06-072009-06-09Cognitive Protocol Ontology (CogPO)NEMO_functionalontoDefinition text goes HEREtask_difficultythe difficulty of an experiment taskdual_task2009-06-072009-06-09NEMO_functionaldual_taskontoDefinition text goes HEREthe quality of being dual-tasksimple_task2009-06-072009-06-09NEMO_functionalontoDefinition text goes HEREsimple_taskthe quality of being simpledifficult_task2009-06-072009-06-09NEMO_functionaldifficult_taskontoDefinition text goes HEREthe quality of being difficulteasy_task2009-06-072009-06-09NEMO_functionaleasy_taskontoDefinition text goes HEREthe quality of being easyexperiment_role2009-06-062010-09-03Experiment role is the role of an entity that is realized through the implementation of an experiment protocol.NEMO_functionalOntology for Biomedical Investigations (OBI)experiment_rolehttp://purl.obofoundry.org/obo/OBI_0000587??ontoDefinition text goes HEREresponse_role2009-06-062011-07-02Cognitive Protocol Ontology (CogPO)NEMO_functionalResponse role is an experiment role played by a behavioral or physiological process in or by an experiment participant in response to an experiment stimulus.response_roleresponse_role is an experiment_role that is role_of ONLY [set of beahvioral_processes that can play the role of a response...]stimulus_role2009-06-062011-07-02Cognitive Protocol Ontology (CogPO)NEMO_functionalStimulus role is an experiment role played by an entity used to produce a cognitive, behavioral, or physiological response by an experiment participant.stimulus_rolestimulus_role is an experiment_role that is role_of ONLY [set of things that can play the role of a stimulus...]behavioral_process2009-06-072012-05-09A behavioral_process is an overt (observable) process that is the result of a motor_process. It involves initiation and control of the skeletal muscle systems (e.g., movement of arms, legs, eyeballs).ontoDefinition text goes HEREhttp://ontology.neuinfo.org/NIF/Function/NIF-Function.owl#birnlex_1910signal_processing_algorithm2009-06-072010-07-23A signal processing algorithm is a mathematical separation and/or combination of time-series data using various algorithms to manipulate the distinct frequency or spatiotemporal components of a set of an input data stream to produce an output data stream.A signal_processing_algorithm is an algorithm that is realized through implementation of (code)....Curator.NEMO_datasignal_processing_algorithmspectral_decomposition_algorithm2009-06-072010-07-23A signal_decomposition_algorithm is an algorithm that is realized through implementation of (code)....A spectral decomposition algorithm is a signal_decomposition_algorithm that decomposes data into different spectral (frequency) bands.Curator.NEMO_dataspectral_decomposition_algorithmtemporal_segmentation_algorithm2009-06-062010-07-23A temporal_segmentation_algorithm is an algorithm that is realized through implementation of (code)....Curator.NEMO_datatemporal_segmentation_algorithmtemporal_segmentation_algorithm is an algorithm for transforming continuous time series data into discrete intervals based on discontinuities in global field power or shifts in global field distribution (i.e., shifts in topography of a pattern).windowingspatiotemporal_decomposition_algorithm2009-07-042010-07-23A spatiotemporal_decomposition_algorithm is an algorithm that is realized through implementation of (code)....A spatiotemporal_decomposition_algorithm is an algorithm that is used to explain the variance in a complex data set (e.g., superposed spatial and/or temporal patterns) as a combination of latent factors or "components".Curator.NEMO_dataspatiotemporal_decomposition_algorithmclustering_algorithm2009-07-042009-07-23A clustering algorithm is a mathematical operation (algorithm) that identifies sets (clusters) of data instances that are similar or close according to one or more measures of similarity or distance.A clustering_algorithm is an algorithm that is realized through implementation of (code)....Curator.NEMO_dataclustering_algorithmjoint_time_frequency_decomposition_algorithm2009-06-062010-07-23A joint_time_frequency_algorithm is an algorithm that is realized through implementation of (code)....A joint_time_frequency_decomposition_algorithm is an algorithm that is used to represent a time-varying signal in both the time and frequency domains simultaneously. In such a representation the frequency domain will only reflect the behavior of a temporally localized version of the signal. This enables one to talk sensibly about signals whose component frequencies vary in time.Curator.JTFJTFNEMO_datahttp://en.wikipedia.org/wiki/Time%E2%80%93frequency_analysisjoint_time_frequency_decomposition_algorithmbehavioral_data_set2009-06-062010-11-26A behavioral dataset is a type of dataset that contains information about a behavioral process. A typical behavioral dataset is a collection of data describing behavioral response(s) under specific experimental (controlled) conditions.NEMO_databehavioral_data_setbehavioral_data_set is a data_set that is_about SOME behavioral_processhttp://en.wikipedia.org/wiki/Behaviorhttp://ncicb.nci.nih.gov/xml/owl/EVS/Thesaurus.owl#Behavioraccuracy_data_set accuracy_data_set is a behavioral_data_set is_about some behavioral_process2009-06-092010-11-26An accuracy dataset is a type of behavioral dataset that contains information about the accuracy of a behavioral process.CuratorNEMO_dataaccuracy_data_setreaction_time_data_set2009-06-092010-11-26A reaction time dataset is a type of behavioral dataset that contains information about the speed of a behavioral process.Curator.NEMO_datareaction_time_data_setreaction_time_data_set is a behavioral_data_set that is_about SOME behavioral_processphysiological_data_set2009-06-062010-10-12A type of data set characterizing a physiological entity.Curator.NEMO_erpphysiological_data_setphysiological_data_set is a data_set that is_about SOME physiological_processelectrophysiological_data_set2009-06-092010-12-29An electrophysiological data set is a type of data set characterizing an electrophysiological process.An electrophysiological_data_set is a physiological_data_set that is_about some physiological_process Curator.NEMO_erpelectrophysiological_data_setcontinuous_EEG_data_set2009-06-092010-10-12A type of data set characterizing an electroencephalogram (EEG).Curator.EEG_data_setNEMO_erpcontinuous_EEG_data_set is a electrophysiological_data_set that...averaged_EEG_data_set2009-06-092010-12-29An electrophysiological data set is a type of data set that characterizes evoked (aka event-related) potentials (ERPs) and is the result of averaging over multiple segments of EEG data.Curator.ERP_data_setNEMO_erpaveraged_EEG_data_set is an electrophysiological_data_set that is_about some averaged_electrophysiological_activity. It is_specified_output_of some averaging_data_transformation that has_specified_input some segemented_EEG_data_setaveraged_ERP_data_setcomputer_monitor2009-06-062011-03-28A computer_monitor is a device that is capable of showing still or moving digital images. The monitor comprises the actual display device, circuitry, and an enclosure. The display device in modern monitors is typically a thin film transistor liquid crystal display (TFT-LCD), while older monitors use a cathode ray tube (CRT).A computer_monitor is a device that is instrument_of some presentation_of_stimulusNEMO_dataVDUVDUcomputer displaycomputer_monitorhttp://en.wikipedia.org/wiki/Computer_monitorhttp://www.wordiq.com/definition/Computer_monitormonitorvisual display unitelectrode2009-06-062011-03-28An electrode is an electrical conductor used to make contact with a nonmetallic part of a circuit (e.g., the human scalp) and is used to measure electrical activity.An electrode is an instrument that... (incomplete)CRISP Thesaurus 1000-5566ECGOontologyv0:ECG_000000047NEMO_dataRadLex RID5456UMLS CUI C0598355electrodehttp://bioontology.org/projects/ontologies/radlex/radlexOwl#RID5456http://cvrgrid.org/ontologies/Electrophysiology#Electrodehttp://en.wikipedia.org/wiki/Electrodehttp://purl.bioontology.org/ontology/CSP/1000-5566http://www.cvgrid.org/files/ECGOntologyv0.7.owl#ECG_000000047http://www.thefreedictionary.com/electrodehttp://www.yourdictionary.com/electrodeelectrode_array2009-06-062009-08-12An electrode array is a configuration of electrodes used for measuring either an electric current or voltage. Some electrode arrays can operate in a bidirectional fashion, in that they can also be used to provide a stimulating pattern of electric current or voltage.An electrode array is an instrument that... (incomplete)NEMO_dataelectrode_arrayhttp://en.wikipedia.org/wiki/Electrode_arrayresponse_data_collection_device2009-06-062010-04-25A response device is an input device that uses an arrangement of buttons or keys to act as mechanical levers or electronic switches that register a participant's response during an experiment task.A response device is an instrument that... (incomplete)Modified from Wikipedia: http://en.wikipedia.org/wiki/Keyboard_%28computing%29NEMO_datakeyboard, response_pad, button_boxresponse_data_collection_devicedata_analysis_protocol_execution...[incomplete]2009-06-062010-07-27A data_analysis_protocol_execution is ...[incomplete]A data_analysis_protocol_execution is a planned process in which a data_analysis_protocol is executed (concretized)?NEMO_datadata_analysis_protocol_executiondata_transformation...[incomplete]2009-06-062010-07-27A data transformation is a protocol application which produces output data from input data - e.g. the application of a clustering protocol to microarray data or the application of a statistical testing method on a primary data set to determine a p-value.NEMO_datadata_transformationdata_transformation is a data_analysis_protocol_execution that...http://ontology.neuinfo.org/NIF/Backend/BIRNLex-OBI-proxy.owl#birnlex_11024http://purl.obofoundry.org/obo/OBI_0200000statistical_measure_generation...[incomplete]2009-06-062010-07-27NEMO_datageneration of summary statistics that capture attributes of a data distribution.statistical_measure_generationstatistical_measure_generation ia a data_transformation...data_measurement_protocol_execution...[incomplete]2009-06-062010-07-27A data_measurement_protocol_execution is a planned process in which a data_measurement_protocol is executed (concretized)?A data_measurement_protocol_execution is a...[incomplete]NEMO_datadata_measurement_protocol_executionbehavioral_data_collection2009-06-062010-07-09NEMO_databehavioral_data_collectionbehavioral_data_collection is a data_measurement_protocol_execution that...[incomplete]behavioral_data_collection is the concrete process of acquiring behavioral_data for the purpose of verifying or falsifying a hypothesis or researching a causal relationship between phenomena.physiological_data_collection2009-06-062010-07-09NEMO_dataphysiological_data_collectionphysiological_data_collection is a data_measurement_protocol_execution that...[incomplete]physiological_data_collection is the concrete process of acquiring physiological_data for the purpose of verifying or falsifying a hypothesis or researching a causal relationship between phenomena.algorithm_execution2009-06-062010-07-09A transformation that applies an algorithm with specified parameters on a data set on a specific computing platform.NEMO_dataalgorithm_executionalgorithm_execution is a data_transformation that...[incomplete]http://ontology.neuinfo.org/NIF/DigitalEntities/NIF-Investigation.owl#birnlex_2174http://ontology.neuinfo.org/NIF/DigitalEntities/NIF-Investigation.owl#birnlex_2174averaging_data_transformation...[incomplete]2009-06-062010-04-30NEMO_dataaveraging_data_transformationaveraging_data_transformation is an algorithm_execution that...[incomplete]http://purl.obofoundry.org/obo/OBI_0200170http://purl.obofoundry.org/obo/OBI_0200170data_decomposition...[incomplete]2009-06-062010-04-30NEMO_datadata_decompositiondata_decomposition is an algorithm_execution that...[incomplete]data_segmentation...[incomplete]...[incomplete]2009-06-062010-04-30NEMO_datadata_segmentationdata_segmentation is an algorithm_execution that...[incomplete]scaling_data_transformation...[incomplete]2009-06-062010-04-30NEMO_datahttp://purl.obofoundry.org/obo/OBI_0200170http://purl.obofoundry.org/obo/OBI_0200170scaling_data_transformationscaling_data_transformation is an algorithm_execution that...[incomplete]center_calculation...[incomplete]2009-06-062010-04-30NEMO_datacenter_calculationcenter_calculation is a statistical_measure_generation that ...[incomplete]http://purl.obofoundry.org/obo/OBI_0200185http://purl.obofoundry.org/obo/OBI_0200185spread_calculation...[incomplete]2009-06-062010-04-30NEMO_datahttp://purl.obofoundry.org/obo/OBI_0200086http://purl.obofoundry.org/obo/OBI_0200086spread_calculationspread_calculation is a statistical_measure_generation that ...[incomplete]frequency_decomposition...[incomplete]2009-06-062010-04-30NEMO_datafourier_analysisfrequency_decompositionfrequency_decomposition is a data_decomposition that ...[incomplete]spectral_decompositionspatial_decomposition ...[incomplete]2009-06-062010-04-30NEMO_dataspatial_decompositionspatial_decomposition is a data_decomposition that ...[incomplete]temporal_decomposition...[incomplete]2009-06-062010-04-30NEMO_datatemporal_decompositiontemporal_decomposition is a data_decomposition that ...[incomplete]temporal-spatial_decomposition ...[incomplete]2009-06-062010-04-30NEMO_datatemporal-spatial_decompositiontemporal-spatial_decomposition is a data_decomposition that ...[incomplete]time-frequency_decomposition...[incomplete]2009-06-062010-04-30NEMO_datatime-frequency_decompositiontime-frequency_decomposition is a data_decomposition that ...[incomplete]intracranial_ERP2009-06-062010-11-16Curator.NEMO_temporalNote that 'stimulus_event' and 'response_event' are defined in NEMO_functional.intracranial_ERPintracranial_ERP is brain_electrophysiological_activity that is time- and phase-locked to a stimulus, response, or physiological event of interest.intracranial_ERP is...event_peak_latency2009-06-062010-07-26An event_peak_latency is a temporal_instant that is the proper_part_of some event_related_temporal_interval, and some event_peak occurs_at this event_peak_latency.An event_peak_latency is the temporal_instant (time point) when a process or event is of maximal absolute amplitude. The latency is measured with respect to a baseline (zero) point. Event peak is defined as the time point when the activity (event) amplitude reaches an absolute maximum.Curator.NEMO_temporalevent_peak_latencymiddle2009-06-062010-07-23Curator.NEMO_spatialSpatial concepts in NEMO refer to objects located on, in, or near the head. They may not generalize to spatial relations among other objects.middlemiddle is a spatial_anatomical_quality that is disjoint with superior and inferior.middle is disjoint with superior and inferior.middle is the quality of being located approximately equidistant to the top of the head (vertex) and to the bottom of the head (neck).ERP_component_ID'factor1' (factor 1 from PCA of a dataset)2009-07-212010-06-13ERP_component_IDERP_component_ID is a label that denotes an ERP component in a particular dataset (not to be confused with an ERP pattern class, such as 'P100-occipital').ERP_component_ID is a label that...[incomplete]Has corresponding term in Bob Frank's NEMO_ERP_Metric_Extraction matlab script: ERPCAM_Component_ID. But note that ERPCAM_component_ID (NEMO_2829000) appears to be a synonym, so one of these terms may need to be deprecated.NEMO_datablock_ID'block1' (block 1 of an experiment that has multiple blocks of trials, with short breaks between blocks)2009-07-212010-07-09A label that denotes a block in an experiment session that comprises multiple blocks.NEMO_datablock_IDblock_ID is a label that...[incomplete]condition_ID'Related''Unrelated'2009-07-212010-07-09A label that denotes an experimental condition or cell.NEMO_datacell_labelcondition_IDcondition_ID is a label that...[incomplete]experiment_ID'GF-LP1'2009-07-212010-05-28A label that denotes an experiment.NEMO_dataexperiment_IDexperiment_ID is a label that denotes an experiment.session_ID'sess1' (session 1 of an experiment that consists of multiple experiments, typically with 1 or more days between sessions)2009-07-212010-05-28A label that denotes a session in an experiment that comprises multiple sessions.NEMO_datasession_IDsession_ID is a label that...stimulus_ID'stim51' (stimulus number 51)2009-07-212010-05-28A label that denotes a stimulus used in an experiment.NEMO_datastimulus_IDstimulus_ID is a label that...trial_ID'trial203' (trial #203)2009-07-212009-08-12A label that denotes a trial that occurs in an experiment.NEMO_datatrial_IDtrial_ID is a label that...response_modality2009-06-072011-05-29Cognitive Protocol Ontology (CogPO)NEMO_functionalresponse_modalityresponse_modality is role_of ONLY (finger OR foot OR etc....)the modality of an experiment responsestimulus_activation2009-10-162009-10-16Cognitive Protocol Ontology (CogPO)NEMO_functionallevel of activation of a memory representation (corresponding to the stimulus) in short-term memoryontoDefinition text goes HEREstimulus_activationprimed2009-10-162009-10-16NEMO_functionalSee also "expected"See also "old"See also "repeated"activatedontoDefinition text goes HEREprimedstimulus preceded by a context that would activate memory representationunprimed2009-10-162009-10-16NEMO_functionalSee also "unexpected"ontoDefinition text goes HEREstimulus not preceded by a context that would activate memory representationunprimedorthographically_primed2009-10-162009-10-16NEMO_functionalontoDefinition text goes HEREorthographically_primedpreceded by an orthographically similar stimulusphonologically_primed2009-10-162009-10-16NEMO_functionalontoDefinition text goes HEREphonologically_primedpreceded by a phonologically similar stimulusrepeated2009-10-162009-10-16NEMO_functionalontoDefinition text goes HEREpreceded by identical stimulusrepeatedsemantically_primed2009-10-162009-10-16NEMO_functionalontoDefinition text goes HEREpreceded by a context that would lead to semantic expectacy for or priming of the stimulussemantically_primedsyntactically_primed2009-10-162009-10-16NEMO_functionalontoDefinition text goes HEREpreceded by a context that would lead to a syntactic expectacy for or priming of the stimulussyntactically_primedfinger_movement_data_measurement2010-04-252010-04-25A finger_movement_measurement_protocol is a protocol that specifies the experiment context in which physiological data are measured.A finger_movement_measurement_protocol is a protocol that...NEMO_datafinger_movement_measurement_protocoldigit2010-11-182011-03-28A single character in a numbering system that is used to represent a number (an abstract mathematical object).Any of the Arabic figures of 1 through 9 and 0. (from http://www.cogpo.org/ontologies/COGPO_00162)Cognitive Protocol Ontology (CogPO)DigitDigit_numberNCI Thesaurus ID C73791NCI meta CUI CL383782NEMO_functionaldigitdigitshttp://ncicb.nci.nih.gov/xml/owl/EVS/Thesaurus.owl#Digit_Numberhttp://www.cogpo.org/ontologies/COGPO_00162ontoDefinition text goes HEREBrodmann_area_37_surface_region2010-07-222011-01-14Area occipitotemporalisArea paratemporalis of SmithB09-37B09-37BA37Brodmann (1909) area 37Brodmann area 37Brodmann_area_37_surface_regionBrodmann_area_37_surface_region is a subdivision of the cytoarchitecturally defined temporal region of cerebral cortex. It is located primarily in the caudal portions of the fusiform gyrus and inferior temporal gyrus on the mediobasal and lateral surfaces at the caudal extreme of the temporal lobe. Cytoarchitecturally it is bounded caudally by the peristriate Brodmann area 19, rostrally by the inferior temporal area 20 and middle temporal area 21 and dorsally on the lateral aspect of the hemisphere by the angular area 39 (H) (Brodmann-1909).Brodmann_area_37_surface_region is a two_dimensional_region that is the location of SOME regional_part_of_cortical_surfaceFormerly NN-71 in NeuroNamesNEMO_spatialNN-767467823NN-922NN-923NeuroNames concept ID NN-2411Umlscui C1272498area 37 of Brodmann (human)area 37 of Brodmann-1909birnlex_1770http://psychology.wikia.com/wiki/Brodmann_area_37occipitotemporaloccipitotemporal area 37auditory_N2b-.4200300 D'Arcy, R. C. N., Connolly, J. F., and Crocker, S. F. (2000a). Latency Shifts in the N2b component track phonological deviations in spoken words. Clinical Neurophysiology, 111 (1), 40-44. 2010-07-132011-06-08N2bNEMO_erpThe auditory_N2b is a scalp_recorded_ERP that is time-locked to an auditory_stimulus and has increased negative amplitude over frontocentral scalp ROI and parietal scalp ROI, about 200-300 ms after the onset of the stimulus.The auditory_N2b is_a scalp-recorded_ERP_extracted_pattern
and has_proper_part SOME peak_latency_measurement_datum
that has_numeric_value SOME decimal[>="200", <="300"]
and has_proper_part SOME intensity_measurement_datum
that has_numeric_value SOME decimal[<="-0.4"]
that is_quality_measurement_of SOME intensity
that inheres_in SOME scalp_recorded_ERP
that unfolds_in SOME frontocentral_scalp_surface_region
and proper_part_of SOME averaged_EEG_data_set
that has_provenance_specification SOME event_type_label
that has_character_string_value SOME "stimulus_onset"
and has_provenance_specification SOME stimulus_type_label
that has_character_string_value SOME "object"
and has_provenance_specification SOME stimulus_modality_label
that has_character_string_value SOME "auditory"auditory_N2bpublication_ID2011-08-282011-08-28A label that denotes a publication.NEMO_datacuratorontoDefinition text goes HEREoffset_behavioral_event2010-08-072010-08-07NEMO_functionalOffset of a behavioral processoffset_behavioral_processontoDefinition text goes HEREBrodmann_area_7_surface_region2010-07-222010-12-15Area parietalis superiorB09-7B09-7BA7Bowden, D. M., & Dubach, M. F. (2003). NeuroNames 2002. Neuroinformatics, 1(1), 43-59.Brodmann (1909) area 7Brodmann area 7Brodmann_area_7_surface_regionBrodmann_area_7_surface_region is a two_dimensional_region that is the location of SOME regional_part_of_cortical_surfaceBrodmann_area_7_surface_region refers to a subdivision of the cytoarchitecturally defined parietal region of cerebral cortex in the guenon. It occupies most of the parietal lobe excluding the postcentral gyrus and superior parietal lobule. Brodmann-1909 considered it topologically homologous to the combined superior parietal area 7, the supramarginal area 40 (H) and the angular area 39 (H) of the human. Cytoarchitecurally he regarded it as "a still undifferentiated precursor zone for all parietal areas (apart from area 5) (Garey-1999). Distinctive features (Brodmann-1905): in area 7 compared to area 5 of Brodmann-1909, large ganglion cells are absent from the internal pyramidal layer (V); the pyramidal cells of the external pyramidal layer (III) sublayer 3b are, on average, larger; the multiform layer (VI) is denser and narrower and more sharply bounded by subcortical white matter.Formerly NN-66 in NeuroNamesNEMO_spatialNN-1907577069NN-902NeuroNames concept ID NN-2407Umlscui C1272529area 7 of Brodmann (human)area 7 of Brodmann-1909birnlex_1738superior parietalsuperior parietal area 7unnamed_ERP_diffwave_effect2012-05-082012-05-08A significant_ERP_diffwave_effect is an effect that is significant over one or more regions of the scalp.Curator.NEMO_erpscalp_recorded_ERP_diffwave_component and (has_proper_part some
(intensity_measurement_datum and (has_ICE some
(p_statistic and (has_numeric_value some decimal[<= ".004167"^^decimal])))))Brodmann_area_44_surface_region2010-09-022011-01-14Area opercularisB09-44B09-44BA44Brodmann (1909) area 44Brodmann area 44Brodmann_area_44_surface_regionBrodmann_area_44_surface_region is a two_dimensional_region that is the location of SOME regional_part_of_cortical_surfaceBrodmann_area_44_surface_region subdivision of the cytoarchitecturally defined frontal region of cerebral cortex. In the human it corresponds approximately to the opercular part of inferior frontal gyrus (H). Thus, it is bounded caudally by the inferior precentral sulcus (H) and rostrally by the anterior ascending limb of lateral sulcus (H). It surrounds the diagonal sulcus (H). In the depth of the lateral sulcus it borders on the insula. Cytoarchitectonically it is bounded caudally and dorsally by the agranular frontal area 6, dorsally by the granular frontal area 9 and rostrally by the triangular area 45 (Brodmann-1909).NEMO_spatialUmlscui C1272509area 44 of Brodmann-1909birnlex_1776http://psychology.wikia.com/wiki/Brodmann_area_44opercularamplifier_stop_band"Frequency region above the 3DB frequency" (Sherman-Gold, R. (1993). The axon guide for electrophysiology & biophysics laboratory techniques. Sunnyvale, CA: Molecular Devices.).2010-10-092010-11-12NEMO_dataSubmitted to NIF in November 2010.Weik, M. (2000). Computer science and communications dictionary (1st ed., Vols. 1-2). Boston: Kluwer Academic Publishers.amplifier_pass_band is a band of frequencies, between specified limits, that a circuit (e.g., an amplifier or filter) does not transmit. Frequencies above the lower limit and below the upper limit are not allowed to pass. The limiting frequencies are those at which the transmitted power level increases to a specified level, usually 3 dB below the maximum level, as the frequency is decreased or increased from that at which the transmitted power is a minimum.amplifier_stop_bandamplifier_stop_band is an artifact_entity_quality that inheres_in some [incomplete...]stopbandCOP_ROI_label2010-05-012010-08-07COP_ROI_labelCOP_ROI_label is label_of some COP_ROI?Has corresponding term in Bob Frank's NEMO_ERP_Metric_Extraction matlab script: COP_ROI_LabelNEMO_dataSpecifies for each spatiotemporal component pair the scalp-surface region of interest containing the COP_EGI / COP_ITT electrode label location. The COP_ROI_Label is the concatenation of the scalp-surface region's position on a lateral (Left, Right, Bilateral) and anterior-posterior axis (Orbitofrontal, Frontal, Anterotemporal, Parietal, Posterotemporal, Occipital), respectively.deprecate?large_adult_head_size...[incompete]2010-05-052010-05-05NEMO_datalarge_adult_head_sizelarge_adult_head_size is a head_size_quality that inheres in some head.episodically_old_condition2011-07-022011-07-02An experiment condition in which the target stimulus is an object that was presented earlier in the experiment.NEMO_functionalepisodically_old_condition is an experimental_condition that...[incomplete]functional_subdivision_cortical_surface_region...[incomplete]2010-10-092010-12-15Functional_subdivision_cortical_surface_region is a two_dimensional_region that is the location of SOME regional_part_of_cortical_surfaceNEMO_spatialfunctional_subdivision_cortical_surface_regionBrodmann_area_32_surface_region2010-07-222010-12-15Area cingularis anterior dorsalisB09-32B09-32BA32Bowden, D. M., & Dubach, M. F. (2003). NeuroNames 2002. Neuroinformatics, 1(1), 43-59.Brodmann (1909) area 32Brodmann area 32Brodmann_area_32_surface_regionBrodmann_area_32_surface_region is a two_dimensional_region that is the location of SOME regional_part_of_cortical_surfaceBrodmann_area_32_surface_region refers to a subdivision of the cytoarchitecturally defined cingulate region of cerebral cortex in the guenon. This area was named 25 in Brodmann-1905 and labeled 25 in a figure contributed by Brodmann in Mauss-1908. In Brodmann-1909, however, the area was labeled 32 and the name "area 25" was attached to the area that has since been the accepted area 25 of Brodmann-1909 (Vogt-87). Distinguishing features according to Brodmann-1905: in contrast with area 6 of Brodmann-1909 the cortex of area 32 is relatively thick; the transition from cortex to white matter is more gradual; the distribution of cells is less dense; and there is no distinct boundary between the inner pyramidal layer (V) and the multiform layer (VI); it is similar to area 6 in the general absence of distinct layers, particularly of an internal granular layer (IV), but differs in that cells are smaller and there is an increased density of medium sized pyramidal cells at the level of layer IV; this population of cells makes area 32 similar to the neighboring area 24 of Brodmann-1909; it differs from area 24 by its greater overall thickness and a particularly thick layer VI that merges gradually with the subcortical white matter. Brodmann-1909 regarded area 32 as topologically, but not cytoarchitecturally, homologous to the human dorsal anterior cingulate area 32; area 25 of Walker-1940 is topologically homologous to area 32.Formerly NN-88 in NeuroNamesNEMO_spatialNN-1143202782NN-980NN-984NeuroNames concept ID NN-2422Umlscui C1272493area 32 of Brodmann (human)area 32 of Brodmann-1909birnlex_1760cingulofrontal transition cortexdorsal anterior cingulatedorsal anterior cingulate area 32parietal_scalp_ROI_label2010-10-292010-10-29NEMO_dataparietal_scalp_ROI_labelparietal_scalp_ROI_label is a label that specifies a parietal scalp-surface region of interest.parietal_scalp_ROI_label label_of SOME parietal_scalp_surface_regionsegmented_MEG_data_set2010-07-302010-10-12A type of data set characterizing magnetoencephalographic activityCurator.NEMO_erpsegmented_MEG_data_setsegmented_MEG_data_set is a electrophysiological_data_set that...head_size...[incomplete]2010-04-302010-04-30NEMO_datahead_sizehead_size is a ... [incomplete]synaptic_integration2010-11-122010-11-25Kandel, E.R. (1991). Transmitter release. In E.R. Kandel, J.H. Schwartz, & T.M. Jessell (Eds.), Principles of neural science (3rd ed.), (pp.206-209). New York: Elsevier.NEMO_erpSubmitted to NIF in November 2010.Synaptic integration is a process by which a central neuron adds up all incoming signals and determines whether an action potential will be generated.Synaptic_integration is a biological process... [incomplete]synaptic_integration“Integration of electrical current generated in various post-synaptic elements” (NIF Definition). atonal_sound...[incomplete]2011-03-302011-03-30An atonal_sound is a sound with a nonperiodic waveform.Atonal_sound is disjoint with tonal_sound. COGPO_00161CRISP Thesaurus 2322-9906NEMO_functionalNoiseUMLS CUI C0028263atonal soundatonal_soundhttp://purl.bioontology.org/ontology/CSP/2322-9906http://purl.bioontology.org/ontology/CSP/2322-9906http://wordnetweb.princeton.edu/perl/webwn?s=noisehttp://www.cogpo.org/ontologies/COGPO_00161skew2010-04-252011-07-02NEMO_dataSkew refers to a lack of symmetry in the shape of the graph of a probability density function.skewskew is a quality that inheres_in some data_set.Brodmann_area_2_surface_region2010-07-222010-12-15Area postcentralis caudalisB09-2B09-2BA2Bowden, D. M., & Dubach, M. F. (2003). NeuroNames 2002. Neuroinformatics, 1(1), 43-59.Brodmann (1909) area 2Brodmann area 2Brodmann_area_2_surface_regionBrodmann_area_2_surface_region is a two_dimensional_region that is the location of SOME regional_part_of_cortical_surfaceBrodmann_area_2_surface_region refers to a subdivision of the postcentral gyrus of the guenon defined on the basis of cytoarchitecture. Brodmann-1909 regarded it as topologically and cytoarchitecturally homologous to the human caudal postcentral area 2. Distinctive features (Brodmann-1905): compared to area 1 of Brodmann-1909, the cortical thickness of area 2 is considerably less; the pyramidal cells of sublayer 3b of the external pyramidal layer (III) are larger and much more densely distributed which produces a more distinct difference between sublayers 3a and 3b; ganglion cells of the internal pyramidal layer (V) are on average much larger and more numerous and are not infrequently intermixed with cells the size of small giant pyramidal cells; layer V is also distinctly divided into a sublayer 5a and 5b where the latter is a clear strip between sublayer 5a and the multiform layer (VI); layer VI consists of a dense outer sublayer 6a of triangular cells and a sparser deeper sublayer 6b of fusiform cells. Authors von Bonin and Bailey disputed the existence of area 2 which they sought unsuccessfully to identify in the macaque as area PD of Bonin-1947 (Bonin-1947).Formerly NN-34 in NeuroNamesNEMO_spatialNN-1699483526NN-824NeuroNames concept ID NN-2392Umlscui C1272524area 2 of Brodmann (human)area 2 of Brodmann-1909birnlex_1733caudal postcentralcaudal postcentral area 2probe_stimulus2011-05-292011-07-02NEMO_functional[incomplete]probe_stimulus is a role played by a stimulus that has a set of features that study participants have been instructed to detect and to make an overt (measurable) response toanalog_filter_algorithm2010-04-222010-09-24An analog_filter_algorithm is a filter_algorithm that [incomplete]An analog_filter_algorithm is an algorithm that separates and removes part of a continuous, analog signal or dataset in accordance with specified criteria.NEMO_dataWeik, M. (2000). Computer science and communications dictionary (1st ed., Vols. 1-2). Boston: Kluwer Academic Publishers.analog_filter_algorithmmean_intensity_RPTEMP_EXT2010-05-012010-08-22Has corresponding term in Bob Frank's NEMO_ERP_Metric_Extraction matlab script: Mean_Intensity_RPTEMP_ExtNEMO_datais_a average_value; located_in?? some extended right_posterotemporal_scalp_surface_region; is_quality_measurement_of electrical_potential_differencemean_intensity_LORB specifies the mean electrical potential, in microvolts, over all electrodes within the extended right posterotemporal scalp ROI.mean_intensity_RPTEMP_EXTmean_intensity_RPTEMP_EXT is a ... [incomplete]ECG_data_set2010-08-012010-10-12A type of data set characterizing an electrocardiogram (ECG)Curator.ECG_data_set is an electrophysiological_data_set that...ERP_data_setNEMO_erpinferential_statistic2011-11-222011-11-22An inferential_statistic is a...NEMO_datahttp://epa.gov/evaluate/glossary/d-esd.htminferential_statistic is a data_item that is_about SOME data_setelectroencephalogram_measurement_protocol2010-04-252010-04-25An electroencephalographic_data_measurement_protocol is a protocol that specifies the experiment context in which electroencaphalographic data are measured.An electroencephalographic_data_measurement_protocol is a protocol that...EEG recordingNEMO_dataelectroencephalographic_data_measurement_protocolpN400_semantic_priming_effect300500.0041670.02011-07-032012-03-19Kutas, M., & Federmeier, K. D. (2000). Electrophysiology reveals semantic memory use in language comprehension. Trends Cogn Sci, 4(12), 463-470; Kutas, M., & Hillyard, S. A. (1980). Reading senseless sentences: Brain potentials reflect semantic incongruity. Science, 207, 203-205.N4N400NEMO_erpThe N400_priming_effect is a signifcantly increased negativity over temporal and parietal scalp regions at 300-500 ms after onset of a linguistic stimulus (target) that is unprimed (typically, semantically unexpected as opposed to syntactically unexpected) vs. one that is preceded by a prime stimulus (e.g., word, sentence or discourse fragment) that activates the semantic representation of the target.The N400_priming_effect is_a scalp_recorded_ERP_diffwave
that is_specified_output_of SOME subtraction_data_transformation
that has_specified_input SOME averaged_EEG_data_set
that is_about SOME scalp_recorded_ERP
that occurs_in_response_to SOME experimental_paradigm_execution
that is_realization_of SOME plan
that is_concretization of SOME
(lexical_priming_paradigm OR sentence_semantic_priming_paradigm OR discourse_semantic_priming_paradigm OR isolated_word_recognition_paradigm OR word_repetition_paradigm)
and has_proper_part SOME peak_latency_measurement_datum
that has_numeric_value SOME decimal[>="300", <="500"]
and has_proper_part SOME intensity_measurement_datum
that has_numeric_value SOME decimal[<="-0.4"]
that is_quality_measurement_of SOME intensity
that inheres_in SOME scalp_recorded_ERP
that unfolds_in SOME parietal_scalp_surface_region
physiological_data_measurement_protocol2010-04-252010-04-25An physiological_data_measurement_protocol is a protocol that specifies the experiment context in which physiological data are measured.An physiological_data_measurement_protocol is a protocol that...NEMO_dataphysiological_data_measurement_protocoleye_blink_artifact2010-04-222011-11-05An electrophysiological_artifact is a... [incomplete]An eye blink (VEOG) artifact is an anomalous (interfering) signals that originates from the blink of an eye.NEMO_dataelectrophysiological_artefacteye_blink_artifacthttp://en.wikipedia.org/wiki/Artifact_%28error%29minimum_value2010-09-032010-11-25NEMO_datahttp://en.wikipedia.org/wiki/Sample_maximum_and_minimumhttp://www.mathworks.com/help/toolbox/stats/brn2ivz-29.htmlminimum_valueminimum_value is a summary statistic used to represent the smallest value in a set of independent, identically distributed random values.minimum_value is an extreme_value that is_about SOME data_setsample minimumparalimbic_cortex...[incomplete]2010-10-092010-12-15NEMO_spatialassociation_areamultimodal_areamultimodal_cortexmultimodal_part_of_cortical_surface_region is a two_dimensional_region that is the location of SOME regional_part_of_cortical_surfaceparalimbic_cortexCOP_1D...[incomplete]2010-06-062010-07-23A COP_1D is a positive centroid that is a proper part of some one-dimensional spatial region.Brodmann_area_2_surface_region...[incomplete]COP_1DNEMO_spatialregional_part_of_head_region2010-10-152011-04-22Curator.NEMO_functionalregional_part_of_head_regionregional_part_of_head_region is a three dimensional spatial region whose coordinates are defined with respect to the head landmarks.regional_part_of_head_region is a three_dimensional_region that is the location_of some regional_part_of_head.Brodmann_area_27_surface_region2010-07-222010-12-15Area praesubicularisB09-27B09-27BA27Bowden, D. M., & Dubach, M. F. (2003). NeuroNames 2002. Neuroinformatics, 1(1), 43-59.Brodmann (1909) area 27Brodmann area 27Brodmann_area_27_surface_regionBrodmann_area_27_surface_region is a two_dimensional_region that is the location of SOME regional_part_of_cortical_surfaceBrodmann_area_27_surface_region refers to a cytoarchitecturally defined cortical area that is a rostral part of the parahippocampal gyrus of the guenon (Brodmann-1909). It is commonly regarded as a synonym of presubiculum (Crosby-62).NEMO_spatialUmlscui C0175194area 27 of Brodmann-1909birnlex_1758presubicularleft_frontocentral_scalp_surface2010-04-142011-04-22A left_frontocentral_scalp_surface is a frontocentral_scalp_surface...[incomplete]A left_frontocentral_scalp_surface is a part of the scalp surface that is approximately centered about ITT electrode FC1/FC3.Curator.NEMO_spatialleft_frontocentral_scalp_surfacestart_time_creation_data_item...[incomplete]...[incomplete]2011-05-282011-05-28NEMO_datastart_time_creation_data_item is a temporal_instant that...[incomplete]structural_magnetic_resonance_data_set2010-11-262011-11-05A structural magnetic_resonance_data_set is a collection of data magnetic resonance images (MRI) that represent anatomical structures within an object.A structural_magnetic_resonance_imaging_data_set is a anatomical_data_set...MRINEMO_dataSymms, M., Jaeger, H. R., Schmierer, K., Yousry, T. A. (2004) A review of structural magnetic resonance neuroimaging. Journal of Neorology, Neurosurgery and Psychiatry with Practical Neurology, 2004, September, 75(9), pp. 1235-44.T2- and T1-weighted sequences are most frequently used for acquiring the structural data in the clinical setting, but other techniques such as T2* sequence, magnetisation transfer imaging (MTI), diffusion tensor imaging (DTI) and fluid attenuated inversion recovery (FLAIR) techniques are also used.anatomical_MRImagnetic_resonsance_imagestructural_MRIstructural_magnetic_resonance_data_setadult_large2010-04-222010-04-25NEMO_dataQuality of EEG sensor net that... [incomplete]adult_largeadult_large is a quality that inheres_in some sensor_net and... [incomplete]adult_age18 years or older2010-05-082010-05-08NEMO_functionaladult_agehttp://ontology.neuinfo.org/NIF/BiomaterialEntities/NIF-Organism.owl#birnlex_683late_adultontoDefinition text goes HEREnumber_left_handed_study_subjects...[incomplete]2011-06-192011-06-19NEMO_functionalnumber_left_handed_study_subjects is a ...[incomplete]number_left_handed_study_subjects is a quality that indicates the number of right-handed study subjects in a particular study or conditionacoustic_noise...[incomplete]2011-04-012011-04-01Acoustic_noise is a sound that is a mix of nonperiodic acoustic waves with a broad distribution of intensities. It is usually perceived by humans as unintelligible and dissonant.COGPO_00161CRISP Thesaurus 2322-9906NEMO_functionalNoiseUMLS CUI C0028263acoustic_noisehttp://purl.bioontology.org/ontology/CSP/2322-9906http://purl.bioontology.org/ontology/CSP/2322-9906http://wordnetweb.princeton.edu/perl/webwn?s=noisehttp://www.cogpo.org/ontologies/COGPO_00161min_electrode_ITT_label2010-05-202010-08-07Has corresponding term in Bob Frank's NEMO_ERP_Metric_Extraction matlab script: Min_Electrode_ITT_LabelNEMO_dataSee also http://purl.bioontology.org/NEMO/ontology/NEMO.owl#NEMO_4125000Specifies for each spatiotemporal component pair the ITT electrode label corresponding to the peak-negative-intensity electrode location.is_label_of (min_electrode_ITT_label, min_electrode_ITT)min_electrode_ITT_labelmin_electrode_ITT_label is label_of some min_electrode ITTwriting2010-11-182011-01-15NEMO_functionalcogPOv1.owlhttp://www.cogpo.org/ontologies/COGPO_00143ontoDefinition text goes HEREwritewritingwriting is the process of tracing or forming characters, letters, words, etc. on the surface of s